Perspectives in Clinical Research : Table of Contents

Users Online: 604

Article Cited by others

REVIEW ARTICLE

MicroRNA therapeutics: Discovering novel targets and developing specific therapy

Christopher Ajay Francis, Kaur Raman Preet, Kaur Gunpreet, Kaur Amandeep, Gupta Vikas, Bansal Parveen

Year : 2016| Volume: 7| Issue : 2 | Page no: 68-74

This article has been cited by

1	MicroRNAs in autoimmune thyroid diseases and their role as biomarkers

	Rebeca Martínez-Hernández, Mónica Marazuela

	Best Practice & Research Clinical Endocrinology & Metabolism. 2023; : 101741

	[Pubmed] [Google Scholar] [DOI]

2	Targeting miR-5088-5p attenuates radioresistance by suppressing Slug

	Hyun Jeong Seok, Jae Yeon Choi, Joo Mi Yi, In Hwa Bae

	Non-coding RNA Research. 2023; 8(2): 164

	[Pubmed] [Google Scholar] [DOI]

3	Harnessing PUF-Based Reporters for Noninvasive Imaging of the MicroRNA Dynamics in Differentiation

	Xiaorui Shi, Chong Hu, Yiyi Jiang, Bin Guo, Chu Tang, Beilei Zhang, Fu Wang

	Analytical Chemistry. 2023;

	[Pubmed] [Google Scholar] [DOI]

4	miR-383 Regulates Hepatic Lipid Homeostasis and Response to Dengue Virus Infection

	Nadine Ahmed, Noreen Ahmed, John Paul Pezacki

	ACS Infectious Diseases. 2022;

	[Pubmed] [Google Scholar] [DOI]

5	Endogenous controls and microRNA profile in female patients with obstructive sleep apnea

	Andrea Zapater, Iván D. Benítez, Fernando Santamaria-Martos, Lucía Pinilla, Adriano Targa, David De Gonzalo-Calvo, Gerard Torres, Olga Mínguez, Anunciación Cortijo, Mireia Dalmases, Ferrán Barbé, Manuel Sánchez-de-la-Torre

	Scientific Reports. 2022; 12(1)

	[Pubmed] [Google Scholar] [DOI]

6	The uptake of metal–organic frameworks: a journey into the cell

	Emily Linnane, Salame Haddad, Francesca Melle, Zihan Mei, David Fairen-Jimenez

	Chemical Society Reviews. 2022;

	[Pubmed] [Google Scholar] [DOI]

7	Micro-RNA in obstructive sleep apnoea: biomarker of cardiovascular outcome?

	Andrea Zapater, Ferran Barbé, Manuel Sánchez-de-la-Torre

	Current Opinion in Pulmonary Medicine. 2022; Publish Ah

	[Pubmed] [Google Scholar] [DOI]

8	Exosomes as Nanocarriers for Theragnostic miRNA Markers in Nonsmall Cell Lung Cancer Therapy

	Ziyu Jiang, Yun He, Wenlong Ding, Siyao Zhu, Qinyuan Li, Xiuchun Sun, Meiguang Bian, Jiege Huo, Haisheng Qian

	Journal of Nanomaterials. 2022; 2022: 1

	[Pubmed] [Google Scholar] [DOI]

9	MicroRNAs: a crossroad that connects obesity to immunity and aging

	Ahmed Rakib, Sonia Kiran, Mousumi Mandal, Udai P. Singh

	Immunity & Ageing. 2022; 19(1)

	[Pubmed] [Google Scholar] [DOI]

10	Exosomal mediated signal transduction through artificial microRNA (amiRNA): A potential target for inhibition of SARS-CoV-2

	Chithravel Vadivalagan, Anushka Shitu, Siva Kamalakannan, Ruei-Ming Chen, Ángel Serrano-Aroca, Vijay Mishra, Alaa A.A. Aljabali, Sachin Kumar Singh, Dinesh Kumar Chellappan, Gaurav Gupta, Kamal Dua, Mohamed El-Tanani, Murtaza M. Tambuwala, Anand Krishnan

	Cellular Signalling. 2022; : 110334

	[Pubmed] [Google Scholar] [DOI]

11	The diagnostic utility of miRNA and elucidation of pathological mechanisms in major depressive disorder

	Cyrus Su Hui Ho, Michelle Wei Ting Soh, Gabrielle Wann Nii Tay

	Comprehensive Psychiatry. 2022; : 152363

	[Pubmed] [Google Scholar] [DOI]

12	Recent advancements of miRNAs in the treatment of bone diseases and their delivery potential

	Ashish Ranjan Sharma, Yeon-Hee Lee, Sang-Soo Lee

	Current Research in Pharmacology and Drug Discovery. 2022; : 100150

	[Pubmed] [Google Scholar] [DOI]

13	Association between miRNAs expression and multiple sclerosis pathogenesis: A novel therapeutic approach

	Hanieh Beyrampour-Basmenj, Mohammad Rahmati, Mohammad Pourhassan Moghamddam, Mohammad Ebrahimi Kalan, Mohammadreza Alivand, Zeynab Aliyari-Serej, Parastou Nastarin, Mohammadhassan Omrani, Sina Khodakarimi, Abbas Ebrahimi-Kalan

	Gene Reports. 2022; 26: 101457

	[Pubmed] [Google Scholar] [DOI]

14	Clinical and immunological aspects of microRNAs in neonatal sepsis

	Ahlam Fatmi, Nafissa Chabni, María Cernada, Máximo Vento, María González-López, Mourad Aribi, Federico V. Pallardó, José Luis García-Giménez

	Biomedicine & Pharmacotherapy. 2022; 145: 112444

	[Pubmed] [Google Scholar] [DOI]

15	miRNA signatures in diabetic retinopathy and nephropathy: delineating underlying mechanisms

	Prabhsimran Kaur, Sushil Kotru, Sandeep Singh, Anjana Munshi

	Journal of Physiology and Biochemistry. 2022;

	[Pubmed] [Google Scholar] [DOI]

16	Innovative approaches in transforming microRNAs into therapeutic tools

	Abdul Fatah A. Samad, Mohd Farizal Kamaroddin

	WIREs RNA. 2022;

	[Pubmed] [Google Scholar] [DOI]

17	Targeting Novel microRNAs in Developing Novel Alzheimer's Disease Treatments

	Fatemehsadat Seyedaghamiri, Mojgan Rajabi, Gisou Mohaddes

	Neurochemical Research. 2022;

	[Pubmed] [Google Scholar] [DOI]

18	Hypothalamic miR-1983 Targets Insulin Receptor ß and the Insulin-mediated miR-1983 Increase Is Blocked by Metformin

	Jennifer A Chalmers, Prasad S Dalvi, Neruja Loganathan, Emma K McIlwraith, Leigh Wellhauser, Anaies Nazarians-Armavil, Judith A Eversley, Haneesha Mohan, Priska Stahel, Satya Dash, Michael B Wheeler, Denise D Belsham

	Endocrinology. 2022; 163(1)

	[Pubmed] [Google Scholar] [DOI]

19	Post-transcriptional micro-RNAs in diagnostics and personalization of treatment in patients with thyroid tumors: literary review

	S. A. Lukyanov, S. V. Sergiyko, T. E. Ilyina

	Perm Medical Journal. 2022; 39(5): 80

	[Pubmed] [Google Scholar] [DOI]

20	In vitro elimination of EL4 cancer cells from spermatogonia stem cells by miRNA-143- and 206-loaded folic acid conjugated PLGA nanoparticles

	Azar Shams, Ronak Shabani, Hamidreza Asgari, Mahdi Karimi, Mohammad Najafi, Mohammad Asghari-Jafarabadi, Seyed Mohsen Razavi, Seyed Rouhollah Miri, Mehdi Abbasi, Amirhossein Mohammadi, Morteza Koruji

	Nanomedicine. 2022;

	[Pubmed] [Google Scholar] [DOI]

21	Dysregulation of Survivin-Targeting microRNAs in Autoimmune Diseases: New Perspectives for Novel Therapies

	Navid Shomali, Marwah Suliman Maashi, Behzad Baradaran, Amin Daei Sorkhabi, Aila Sarkesh, Hamed Mohammadi, Maryam Hemmatzadeh, Faroogh Marofi, Siamak Sandoghchian Shotorbani, Mostafa Jarahian

	Frontiers in Immunology. 2022; 13

	[Pubmed] [Google Scholar] [DOI]

22	The Correlation Between MicroRNAs and Diabetic Retinopathy

	Xin Zhao, Feng Ling, Guang wei Zhang, Na Yu, Jing Yang, Xiang yang Xin

	Frontiers in Immunology. 2022; 13

	[Pubmed] [Google Scholar] [DOI]

23	Novel Therapies for Alport Syndrome

	Efren Chavez, Juanly Rodriguez, Yelena Drexler, Alessia Fornoni

	Frontiers in Medicine. 2022; 9

	[Pubmed] [Google Scholar] [DOI]

24	Aquaglyceroporin Modulators as Emergent Pharmacological Molecules for Human Diseases

	Catarina Pimpão, Darren Wragg, Inês V. da Silva, Angela Casini, Graça Soveral

	Frontiers in Molecular Biosciences. 2022; 9

	[Pubmed] [Google Scholar] [DOI]

25	In Vivo Inhibition of miR-34a Modestly Limits Cardiac Enlargement and Fibrosis in a Mouse Model with Established Type 1 Diabetes-Induced Cardiomyopathy, but Does Not Improve Diastolic Function

	Bianca C. Bernardo, Gunes S. Yildiz, Helen Kiriazis, Claudia A. Harmawan, Celeste M. K. Tai, Rebecca H. Ritchie, Julie R. McMullen

	Cells. 2022; 11(19): 3117

	[Pubmed] [Google Scholar] [DOI]

26	A Segmental Approach from Molecular Profiling to Medical Imaging to Study Bicuspid Aortic Valve Aortopathy

	Froso Sophocleous, Estefania De Garate, Maria Giulia Bigotti, Maryam Anwar, Eva Jover, Aranzazu Chamorro-Jorganes, Cha Rajakaruna, Konstantina Mitrousi, Viola De Francesco, Aileen Wilson, Serban Stoica, Andrew Parry, Umberto Benedetto, Pierpaolo Chivasso, Frances Gill, Mark C. K. Hamilton, Chiara Bucciarelli-Ducci, Massimo Caputo, Costanza Emanueli, Giovanni Biglino

	Cells. 2022; 11(23): 3721

	[Pubmed] [Google Scholar] [DOI]

27	Sequence Requirements for miR-424-5p Regulating and Function in Cancers

	Jiangying Xuan, Yingxia Liu, Xiaoping Zeng, Hongmei Wang

	International Journal of Molecular Sciences. 2022; 23(7): 4037

	[Pubmed] [Google Scholar] [DOI]

28	Concurrent Chemoradiotherapy-Driven Cell Plasticity by miR-200 Family Implicates the Therapeutic Response of Esophageal Squamous Cell Carcinoma

	Yu-Cheng Lee, Cheng-Han Lin, Wei-Lun Chang, Wen-Der Lin, Jhih-Kai Pan, Wei-Jan Wang, Bor-Chyuan Su, Hsien-Hui Chung, Chen-Hsun Tsai, Forn-Chia Lin, Wen-Ching Wang, Pei-Jung Lu

	International Journal of Molecular Sciences. 2022; 23(8): 4367

	[Pubmed] [Google Scholar] [DOI]

29	MicroRNAs in the Regulation of Endometrial Receptivity for Embryo Implantation

	Manizha Shekibi, Sophea Heng, Guiying Nie

	International Journal of Molecular Sciences. 2022; 23(11): 6210

	[Pubmed] [Google Scholar] [DOI]

30	Analysis of miRNA Expression Profiling of RIP2 Knockdown in Chicken HD11 Cells When Infected with Avian Pathogenic E. coli (APEC)

	Hongyan Sun, Yuxuan Cao, Yexin Yang, Huan Li, Lujiang Qu

	International Journal of Molecular Sciences. 2022; 23(13): 7319

	[Pubmed] [Google Scholar] [DOI]

31	Combined Treatment of Bronchial Epithelial Calu-3 Cells with Peptide Nucleic Acids Targeting miR-145-5p and miR-101-3p: Synergistic Enhancement of the Expression of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Gene

	Chiara Papi, Jessica Gasparello, Matteo Zurlo, Alex Manicardi, Roberto Corradini, Giulio Cabrini, Roberto Gambari, Alessia Finotti

	International Journal of Molecular Sciences. 2022; 23(16): 9348

	[Pubmed] [Google Scholar] [DOI]

32	miR-142 Targets TIM-1 in Human Endothelial Cells: Potential Implications for Stroke, COVID-19, Zika, Ebola, Dengue, and Other Viral Infections

	Urna Kansakar, Jessica Gambardella, Fahimeh Varzideh, Roberta Avvisato, Stanislovas S. Jankauskas, Pasquale Mone, Alessandro Matarese, Gaetano Santulli

	International Journal of Molecular Sciences. 2022; 23(18): 10242

	[Pubmed] [Google Scholar] [DOI]

33	MicroRNAs miR-451a and Let-7i-5p Profiles in Circulating Exosomes Vary among Individuals with Different Sickle Hemoglobin Genotypes and Malaria

	Keri Oxendine Harp, Alaijah Bashi, Felix Botchway, Yvonne Dei-Adomakoh, Shareen A. Iqbal, Michael D. Wilson, Andrew A. Adjei, Jonathan K. Stiles, Adel Driss

	Journal of Clinical Medicine. 2022; 11(3): 500

	[Pubmed] [Google Scholar] [DOI]

34	Clinical Application of Serum microRNAs in Atherosclerotic Coronary Artery Disease

	Anna Kablak-Ziembicka, Rafal Badacz, Tadeusz Przewlocki

	Journal of Clinical Medicine. 2022; 11(22): 6849

	[Pubmed] [Google Scholar] [DOI]

35	miRacle of microRNA-Driven Cancer Nanotherapeutics

	Goknur Kara, Banu Arun, George A. Calin, Bulent Ozpolat

	Cancers. 2022; 14(15): 3818

	[Pubmed] [Google Scholar] [DOI]

36	Co-Expression Network Analysis of MicroRNAs and Proteins in Severe Traumatic Brain Injury: A Systematic Review

	Claire Osgood,Zubair Ahmed,Valentina Di Pietro

	Cells. 2021; 10(9): 2425

	[Pubmed] [Google Scholar] [DOI]

37	The Regulatory Cross-Talk between microRNAs and Novel Members of the B7 Family in Human Diseases: A Scoping Review

	Noora Karim Ahangar,Nima Hemmat,Mohammad Khalaj-Kondori,Mahdi Abdoli Shadbad,Hani Sabaie,Ahad Mokhtarzadeh,Nazila Alizadeh,Afshin Derakhshani,Amir Baghbanzadeh,Katayoun Dolatkhah,Nicola Silvestris,Behzad Baradaran

	International Journal of Molecular Sciences. 2021; 22(5): 2652

	[Pubmed] [Google Scholar] [DOI]

38	Epigenetics, microRNA and Metabolic Syndrome: A Comprehensive Review

	Farha Ramzan,Mark H. Vickers,Richard F. Mithen

	International Journal of Molecular Sciences. 2021; 22(9): 5047

	[Pubmed] [Google Scholar] [DOI]

39	Dysregulation of microRNA and Intracerebral Hemorrhage: Roles in Neuroinflammation

	Hisham Kashif,Dilan Shah,Sangeetha Sukumari-Ramesh

	International Journal of Molecular Sciences. 2021; 22(15): 8115

	[Pubmed] [Google Scholar] [DOI]

40	miRNAs as Therapeutic Tools in Alzheimer’s Disease

	Chang Youn Lee, In Soo Ryu, Jin-Hyeob Ryu, Hyun-Jeong Cho

	International Journal of Molecular Sciences. 2021; 22(23): 13012

	[Pubmed] [Google Scholar] [DOI]

41	MicroRNA-30b Is Both Necessary and Sufficient for Interleukin-21 Receptor-Mediated Angiogenesis in Experimental Peripheral Arterial Disease

	Tao Wang, Liang Yang, Mingjie Yuan, Charles R. Farber, Rosanne Spolski, Warren J. Leonard, Vijay C. Ganta, Brian H. Annex

	International Journal of Molecular Sciences. 2021; 23(1): 271

	[Pubmed] [Google Scholar] [DOI]

42	Molecular insights into the role of genetic determinants of congenital hypothyroidism

	Yedukondalu Kollati,Radha Rama Devi Akella,Shaik Mohammad Naushad,Rajesh K. Patel,G. Bhanuprakash Reddy,Vijaya R. Dirisala

	Genomics & Informatics. 2021; 19(3): e29

	[Pubmed] [Google Scholar] [DOI]

43	miR-24 Targets the Transmembrane Glycoprotein Neuropilin-1 in Human Brain Microvascular Endothelial Cells

	Pasquale Mone,Jessica Gambardella,Xujun Wang,Stanislovas S. Jankauskas,Alessandro Matarese,Gaetano Santulli

	Non-Coding RNA. 2021; 7(1): 9

	[Pubmed] [Google Scholar] [DOI]

44	Signaling Pathway Inhibitors, miRNA, and Nanocarrier-Based Pharmacotherapeutics for the Treatment of Lung Cancer: A Review

	Shadab Md, Nabil A. Alhakamy, Shahid Karim, Gamal A Gabr, Mohammad Kashif Iqubal, Samar S. A. Murshid

	Pharmaceutics. 2021; 13(12): 2120

	[Pubmed] [Google Scholar] [DOI]

45	Expression of Selected microRNAs in Migraine: A New Class of Possible Biomarkers of Disease?

	Lara Ahmad, Chiara Demartini, Michele Corrado, Gloria Vaghi, Elisa Maria Piella, Marta Allena, Anna Maria Zanaboni, Rosaria Greco, Cristina Tassorelli, Roberto De Icco

	Processes. 2021; 9(12): 2199

	[Pubmed] [Google Scholar] [DOI]

46	The Clinical Assessment of MicroRNA Diagnostic, Prognostic, and Theranostic Value in Colorectal Cancer

	Hussein Al-Akhrass,Niki Christou

	Cancers. 2021; 13(12): 2916

	[Pubmed] [Google Scholar] [DOI]

47	The Influence of miRNAs on Radiotherapy Treatment in Prostate Cancer – A Systematic Review

	Sílvia Soares,Susana G. Guerreiro,Natália Cruz-Martins,Isabel Faria,Pilar Baylina,Maria Goreti Sales,Miguel A. Correa-Duarte,Rúben Fernandes

	Frontiers in Oncology. 2021; 11

	[Pubmed] [Google Scholar] [DOI]

48	RNA Interference and Nanotechnology: A Promising Alliance for Next Generation Cancer Therapeutics

	Guruprasadh Swaminathan,Aisha Shigna,Aviral Kumar,Vishnu Vardhan Byroju,Varsha Reddy Durgempudi,Lekha Dinesh Kumar

	Frontiers in Nanotechnology. 2021; 3

	[Pubmed] [Google Scholar] [DOI]

49	Where the Aryl Hydrocarbon Receptor Meets the microRNAs: Literature Review of the Last 10 Years

	Geonildo Rodrigo Disner, Monica Lopes-Ferreira, Carla Lima

	Frontiers in Molecular Biosciences. 2021; 8

	[Pubmed] [Google Scholar] [DOI]

50	Epigenetic Alterations in Renal Cell Cancer With TKIs Resistance: From Mechanisms to Clinical Applications

	Qinhan Li,Zhenan Zhang,Yu Fan,Qian Zhang

	Frontiers in Genetics. 2021; 11

	[Pubmed] [Google Scholar] [DOI]

51	A Review on the Role of Nanosensors in Detecting Cellular miRNA Expression in Colorectal Cancer

	Koyeli Girigoswami, Agnishwar Girigoswami

	Endocrine, Metabolic & Immune Disorders - Drug Targets. 2021; 21(1): 12

	[Pubmed] [Google Scholar] [DOI]

52	Therapeutic Potential of microRNA Against Th2-associated Immune Disorders

	Sunil Kumar, Muhammad Umer Ashraf, Anil Kumar, Yong-Soo Bae

	Current Topics in Medicinal Chemistry. 2021; 21(8): 753

	[Pubmed] [Google Scholar] [DOI]

53	Evaluation of the severity of nonalcoholic fatty liver disease through analysis of serum exosomal miRNA expression

	Jeong-An Gim,Soo Min Bang,Young-Sun Lee,Yoonseok Lee,Sun Young Yim,Young Kul Jung,Hayeon Kim,Baek-Hui Kim,Ji Hoon Kim,Yeon Seok Seo,Hyung Joon Yim,Jong Eun Yeon,Soon Ho Um,Kwan Soo Byun,Matias A. Avila

	PLOS ONE. 2021; 16(8): e0255822

	[Pubmed] [Google Scholar] [DOI]

54	Micro-RNA-125a mediates the effects of hypomethylating agents in chronic myelomonocytic leukemia

	Johannes Lorenz Berg,Bianca Perfler,Stefan Hatzl,Marie-Christina Mayer,Sonja Wurm,Barbara Uhl,Andreas Reinisch,Ingeborg Klymiuk,Sascha Tierling,Gudrun Pregartner,Gerhard Bachmaier,Andrea Berghold,Klaus Geissler,Martin Pichler,Gerald Hoefler,Herbert Strobl,Albert Wölfler,Heinz Sill,Armin Zebisch

	Clinical Epigenetics. 2021; 13(1)

	[Pubmed] [Google Scholar] [DOI]

55	Comprehensive Transcriptome Analyses in Sea Louse Reveal Novel Delousing Drug Responses Through MicroRNA regulation

	Gustavo Núñez-Acuña,Valentina Valenzuela-Muñoz,Diego Valenzuela-Miranda,Cristian Gallardo-Escárate

	Marine Biotechnology. 2021;

	[Pubmed] [Google Scholar] [DOI]

56	Emerging role of microRNAs as novel targets of antidepressants

	Aarthi Manoharan, Abialbon Paul

	Asian Journal of Psychiatry. 2021; 66: 102906

	[Pubmed] [Google Scholar] [DOI]

57	Evaluating the influence of Human Umbilical Cord Mesenchymal Stem Cells-derived exosomes loaded with miR-3182 on metastatic performance of Triple Negative Breast Cancer cells

	Yalda Khazaei-Poul,Samaneh Shojaei,Ameneh Koochaki,Hossein Ghanbarian,Samira Mohammadi-Yeganeh

	Life Sciences. 2021; : 120015

	[Pubmed] [Google Scholar] [DOI]

58	MicroRNAs expression changes coincide with low or high grade of squamous intraepithelial lesion infected by HPV-16

	Sara Norouzi,Ali Farhadi,Ehsan Farzadfard,Mojgan Akbarzade-Jahromi,Neda Ahmadzadeh,Mahboobeh Nasiri,Gholamhossein Tamaddon

	Gene Reports. 2021; : 101186

	[Pubmed] [Google Scholar] [DOI]

59	Serum miR-222 is independently associated with atrial fibrillation in patients with degenerative valvular heart disease

	Hualan Zhou,Sen Lin,Xia Li,Dianxuan Guo,Yun Wang,Youdong Hu

	BMC Cardiovascular Disorders. 2021; 21(1)

	[Pubmed] [Google Scholar] [DOI]

60	MicroRNAs affect GPCR and Ion channel genes needed for influenza replication

	Nichole Orr-Burks, Jackelyn Murray, Kyle V. Todd, Abhijeet Bakre, Ralph A. Tripp

	Journal of General Virology . 2021; 102(11)

	[Pubmed] [Google Scholar] [DOI]

61	Circulating Blood miR-155 and miR-21 Promote the Development of Acute Pancreatitis and Can Be Used to Assess the Risk Stratification of Pancreatitis

	Lan Hu, Dongdong Han, Diao Yu, Dongji Ao, Zhengyi Yang, Kalidoss Rajakani

	Journal of Healthcare Engineering. 2021; 2021: 1

	[Pubmed] [Google Scholar] [DOI]

62	Canonical Pathways Associated with Blood Pressure Response to Sleep Apnea Treatment: A Post Hoc Analysis

	Andrea Zapater, Fernando Santamaria-Martos, Adriano Targa, Lucía Pinilla, Alicia Sánchez-de-la-Torre, Iván David Benítez, Miguel Ángel Martínez-García, Ferran Barbé, Manuel Sánchez-de-la-Torre

	Respiration. 2021; 100(4): 298

	[Pubmed] [Google Scholar] [DOI]

63	Curcumin Reduces Neuroinflammation and Improves the Impairments of Anesthetics on Learning and Memory by Regulating the Expression of miR-181a-5p

	Guizhen Liu, Yuchuan Sun, Fei Liu

	Neuroimmunomodulation. 2021; 28(1): 38

	[Pubmed] [Google Scholar] [DOI]

64	Deficiency of MicroRNA-181a Results in Transcriptome-Wide Cell-Specific Changes in the Kidney and Increases Blood Pressure

	Madeleine R. Paterson,Kristy L. Jackson,Malathi S.I. Dona,Gabriella E. Farrugia,Bruna Visniauskas,Anna M.D. Watson,Chad Johnson,Minolfa C. Prieto,Roger G. Evans,Fadi J. Charchar,Alexander R. Pinto,Francine Z. Marques,Geoffrey A. Head

	Hypertension. 2021;

	[Pubmed] [Google Scholar] [DOI]

65	microRNAs in the pathogenesis of non-obstructive azoospermia: the underlying mechanisms and therapeutic potentials

	Yeganeh Rastgar Rezaei,Reza Zarezadeh,Saba Nikanfar,Hajar Oghbaei,Nahideh Nazdikbin,Zahra Bahrami-Asl,Nosratollah Zarghami,Yadollah Ahmadi,Amir Fattahi,Mohammad Nouri,Ralf Dittrich

	Systems Biology in Reproductive Medicine. 2021; : 1

	[Pubmed] [Google Scholar] [DOI]

66	Downregulation of microRNA-200c-3p alleviates the aggravation of venous thromboembolism by targeting serpin family C member 1

	Xiaorong Jian, Dehua Yang, Li Wang, Hongxiang Wang

	Bioengineered. 2021;

	[Pubmed] [Google Scholar] [DOI]

67	Lipids and Lipid Derivatives for RNA Delivery

	Yuebao Zhang,Changzhen Sun,Chang Wang,Katarina E. Jankovic,Yizhou Dong

	Chemical Reviews. 2021;

	[Pubmed] [Google Scholar] [DOI]

68	Nanoparticle delivery of microRNA-146a regulates mechanotransduction in lung macrophages and mitigates injury during mechanical ventilation

	Christopher M. Bobba,Qinqin Fei,Vasudha Shukla,Hyunwook Lee,Pragi Patel,Rachel K. Putman,Carleen Spitzer,MuChun Tsai,Mark D. Wewers,Robert J. Lee,John W. Christman,Megan N. Ballinger,Samir N. Ghadiali,Joshua A. Englert

	Nature Communications. 2021; 12(1)

	[Pubmed] [Google Scholar] [DOI]

69	miR-10a as a therapeutic target and predictive biomarker for MDM2 inhibition in acute myeloid leukemia

	Thi Thanh Vu,Friedrich Stölzel,Kristy W. Wang,Christoph Röllig,Melinda L. Tursky,Timothy J. Molloy,David D. Ma

	Leukemia. 2020;

	[Pubmed] [Google Scholar] [DOI]

70	Extracellular vesicles, microRNA and the preimplantation embryo: non-invasive clues of embryo well-being

	David Connor Hawke,Andrew John Watson,Dean Harvey Betts

	Reproductive BioMedicine Online. 2020;

	[Pubmed] [Google Scholar] [DOI]

71	Epigenetic regulation of miR-29a/miR-30c/DNMT3A axis controls SOD2 and mitochondrial oxidative stress in human mesenchymal stem cells

	Yi-deun Jung,Seul-Ki Park,Dayeon Kang,Supyong Hwang,Myoung-Hee Kang,Seung-Woo Hong,Jai-Hee Moon,Jae-Sik Shin,Dong-Hoon Jin,Dalsan You,Joo-Yong Lee,Yun-Yong Park,Jung Jin Hwang,Choung Soo Kim,Nayoung Suh

	Redox Biology. 2020; 37: 101716

	[Pubmed] [Google Scholar] [DOI]

72	DNA Strands Trigger the Intracellular Release of Drugs from Mucin-Based Nanocarriers

	Ceren Kimna,Theresa Monika Lutz,Hongji Yan,Jian Song,Thomas Crouzier,Oliver Lieleg

	ACS Nano. 2020;

	[Pubmed] [Google Scholar] [DOI]

73	Differential MicroRNA-Signatures in Thyroid Cancer Subtypes

	Krystal Santiago,Yan Chen Wongworawat,Salma Khan

	Journal of Oncology. 2020; 2020: 1

	[Pubmed] [Google Scholar] [DOI]

74	Small Extracellular Vesicles from Human Fetal Dermal Cells and Their MicroRNA Cargo: KEGG Signaling Pathways Associated with Angiogenesis and Wound Healing

	Cinzia Maria Chinnici,Giandomenico Amico,Alessia Gallo,Gioacchin Iannolo,Nicola Cuscino,Serena Vella,Claudia Carcione,David Nascari,Pier Giulio Conaldi

	Stem Cells International. 2020; 2020: 1

	[Pubmed] [Google Scholar] [DOI]

75	MicroRNA -206 inhibits influenza A virus replication by targeting tankyrase 2

	Gayan Bamunuarachchi,Xiaoyun Yang,Chaoqun Huang,Yurong Liang,Yujie Guo,Lin Liu

	Cellular Microbiology. 2020;

	[Pubmed] [Google Scholar] [DOI]

76	Pseudogene-gene functional networks are prognostic of patient survival in breast cancer

	Sasha Smerekanych,Travis S. Johnson,Kun Huang,Yan Zhang

	BMC Medical Genomics. 2020; 13(S5)

	[Pubmed] [Google Scholar] [DOI]

77	MicroRNA-1 Modulates Chondrocyte Phenotype by Regulating FZD7 of Wnt/ß-Catenin Signaling Pathway

	Yang Yang, Yawei Wang, Haobo Jia, Bing Li, Dan Xing, Jiao Jiao Li

	CARTILAGE. 2020; : 1947603520

	[Pubmed] [Google Scholar] [DOI]

78	Genetically Encoded Reporter Genes for MicroRNA Imaging in Living Cells and Animals

	Yingzhuang Song,Zhijing Xu,Fu Wang

	Molecular Therapy - Nucleic Acids. 2020; 21: 555

	[Pubmed] [Google Scholar] [DOI]

79	Web-based tools for miRNA studies analysis

	Fatemeh Shaker,Abbas Nikravesh,Roghaye Arezumand,Seyed Hamid Aghaee-Bakhtiari

	Computers in Biology and Medicine. 2020; 127: 104060

	[Pubmed] [Google Scholar] [DOI]

80	Circular RNA Circ_0000064 promotes the proliferation and fibrosis of mesangial cells via miR-143 in diabetic nephropathy

	Xiaoxu Ge,Liuqing Xi,Qianqian Wang,Huihua Li,Lili Xia,Zhen Cang,Wenfang Peng,Shan Huang

	Gene. 2020; 758: 144952

	[Pubmed] [Google Scholar] [DOI]

81	Nucleic acid hybridization on a plasmonic nanointerface of optical microfiber enables ultrahigh-sensitive detection and potential photothermal therapy

	Yunyun Huang,Pengwei Chen,He Liang,Aoxiang Xiao,Shengkang Zeng,Bai-Ou Guan

	Biosensors and Bioelectronics. 2020; 156: 112147

	[Pubmed] [Google Scholar] [DOI]

82	miR-129 blocks secondary hyperparathyroidism-inducing Fgf23/aKlotho signaling in mice with chronic kidney disease

	Mingzhi Xu,Hong Li,Yafei Bai,Jiqing He,Ruman Chen,Na An,Yongyong Li,Yishan Dong

	The American Journal of the Medical Sciences. 2020;

	[Pubmed] [Google Scholar] [DOI]

83	New possible pharmacological targets for statins and ezetimibe

	Mateusz Niedzielski,Marlena Broncel,Paulina Gorzelak-Pabis,Ewelina Wozniak

	Biomedicine & Pharmacotherapy. 2020; 129: 110388

	[Pubmed] [Google Scholar] [DOI]

84	microRNAs: New-Age Panacea in Cancer Therapeutics

	Neelanjana Sarkar,Arun Kumar

	Indian Journal of Surgical Oncology. 2020;

	[Pubmed] [Google Scholar] [DOI]

85	Cardiomyocyte microvesicles: proinflammatory mediators after myocardial ischemia?

	Patrick Malcolm Siegel,Judith Schmich,Georg Barinov,István Bojti,Christopher Vedecnik,Novita Riani Simanjuntak,Christoph Bode,Martin Moser,Karlheinz Peter,Philipp Diehl

	Journal of Thrombosis and Thrombolysis. 2020;

	[Pubmed] [Google Scholar] [DOI]

86	MicroRNAs (miRNAs) and Long Non-Coding RNAs (lncRNAs) as New Tools for Cancer Therapy: First Steps from Bench to Bedside

	Margherita Ratti,Andrea Lampis,Michele Ghidini,Massimiliano Salati,Milko B. Mirchev,Nicola Valeri,Jens C. Hahne

	Targeted Oncology. 2020;

	[Pubmed] [Google Scholar] [DOI]

87	Targeting SARS CoV2 (Indian isolate) genome with miRNA: An in silico study

	Arpita Devi,Nyshadham S. N. Chaitanya

	IUBMB Life. 2020;

	[Pubmed] [Google Scholar] [DOI]

88	iDrug: Integration of drug repositioning and drug-target prediction via cross-network embedding

	Huiyuan Chen,Feixiong Cheng,Jing Li,Avner Schlessinger

	PLOS Computational Biology. 2020; 16(7): e1008040

	[Pubmed] [Google Scholar] [DOI]

89	Regulation of hepatic microRNAs in response to early stage Echinococcus multilocularis egg infection in C57BL/6 mice

	Ghalia Boubaker,Sebastian Strempel,Andrew Hemphill,Norbert Müller,Junhua Wang,Bruno Gottstein,Markus Spiliotis,Gabriel Rinaldi

	PLOS Neglected Tropical Diseases. 2020; 14(5): e0007640

	[Pubmed] [Google Scholar] [DOI]

90	Epigenetic Marks in Polycystic Ovary Syndrome

	Alicia Beatriz Motta

	Current Medicinal Chemistry. 2020; 27(39): 6727

	[Pubmed] [Google Scholar] [DOI]

91	Mesenchymal Stem Cell and MicroRNA Therapy of Musculoskeletal Diseases

	Myung-Jin Chung,Ji-Yoon Son,SunYoung Park,Soon-Seok Park,Keun Hur,Sang-Han Lee,Eun-Joo Lee,Jin-Kyu Park,Il-Hwa Hong,Tae-Hwan Kim,Kyu-Shik Jeong

	International Journal of Stem Cells. 2020;

	[Pubmed] [Google Scholar] [DOI]

92	MiRNAs: A New Approach to Predict and Overcome Resistance to Anticancer Drugs

	Noor Altaleb

	Clinical Cancer Drugs. 2020; 7(2): 65

	[Pubmed] [Google Scholar] [DOI]

93	Let-7i-5p Regulation of Cell Morphology and Migration Through Distinct Signaling Pathways in Normal and Pathogenic Urethral Fibroblasts

	Kaile Zhang,Ranxin Yang,Jun Chen,Er Qi,Shukui Zhou,Ying Wang,Qiang Fu,Rong Chen,Xiaolan Fang

	Frontiers in Bioengineering and Biotechnology. 2020; 8

	[Pubmed] [Google Scholar] [DOI]

94	The Enigmatic Role of Serum & Glucocorticoid Inducible Kinase 1 in the Endometrium

	Florian Lang,Janet Rajaxavier,Yogesh Singh,Sara Y. Brucker,Madhuri S. Salker

	Frontiers in Cell and Developmental Biology. 2020; 8

	[Pubmed] [Google Scholar] [DOI]

95	microRNA-137 downregulates MCL1 in ovarian cancer cells and mediates cisplatin-induced apoptosis

	Wei Chen,Jingjie Du,Xiaodi Li,Ziming Zhi,Songshan Jiang

	Pharmacogenomics. 2020; 21(3): 195

	[Pubmed] [Google Scholar] [DOI]

96	The roles of miRNAs’ clinical efficiencies in the colorectal cancer pathobiology: A review article

	Nahal Eshghifar,Elham Badrlou,Farkhondeh Pouresmaeili

	Human Antibodies. 2020; 28(4): 273

	[Pubmed] [Google Scholar] [DOI]

97	Epigenetic regulation by polyphenols in diabetes and related complications

	Hammad Ullah,Anna De Filippis,Cristina Santarcangelo,Maria Daglia

	Mediterranean Journal of Nutrition and Metabolism. 2020; : 1

	[Pubmed] [Google Scholar] [DOI]

98	Structural Insights on Tiny Peptide Nucleic Acid (PNA) Analogues of miRNA-34a: An in silico and Experimental Integrated Approach

	Maria Moccia,Flavia Anna Mercurio,Emma Langella,Valerio Piacenti,Marilisa Leone,Mauro F. A. Adamo,Michele Saviano

	Frontiers in Chemistry. 2020; 8

	[Pubmed] [Google Scholar] [DOI]

99	Small-Medium Extracellular Vesicles and Their miRNA Cargo in Retinal Health and Degeneration: Mediators of Homeostasis, and Vehicles for Targeted Gene Therapy

	Yvette Wooff,Adrian V. Cioanca,Joshua A. Chu-Tan,Riemke Aggio-Bruce,Ulrike Schumann,Riccardo Natoli

	Frontiers in Cellular Neuroscience. 2020; 14

	[Pubmed] [Google Scholar] [DOI]

100	Tick Salivary Compounds for Targeted Immunomodulatory Therapy

	Hajer Aounallah,Chaima Bensaoud,Youmna M’ghirbi,Fernanda Faria,Jindr?ich Chmelar?,Michail Kotsyfakis

	Frontiers in Immunology. 2020; 11

	[Pubmed] [Google Scholar] [DOI]

101	Editorial: Regulation of Soluble Immune Mediators by Non-Coding RNAs

	Daniela Bosisio,Flavia Bazzoni

	Frontiers in Immunology. 2020; 11

	[Pubmed] [Google Scholar] [DOI]

102	Revisiting Traumatic Brain Injury: From Molecular Mechanisms to Therapeutic Interventions

	Abbas Jarrahi,Molly Braun,Meenakshi Ahluwalia,Rohan V. Gupta,Michael Wilson,Stephanie Munie,Pankaj Ahluwalia,John R. Vender,Fernando L. Vale,Krishnan M. Dhandapani,Kumar Vaibhav

	Biomedicines. 2020; 8(10): 389

	[Pubmed] [Google Scholar] [DOI]

103	miR-98 Regulates TMPRSS2 Expression in Human Endothelial Cells: Key Implications for COVID-19

	Alessandro Matarese,Jessica Gambardella,Celestino Sardu,Gaetano Santulli

	Biomedicines. 2020; 8(11): 462

	[Pubmed] [Google Scholar] [DOI]

104	Up-regulation of MicroRNAs-21 and -223 in a Sprague-Dawley Rat Model of Traumatic Spinal Cord Injury

	Hyo-Jin Chung,Wook-Hun Chung,Sun-Hee Do,Jae-Hoon Lee,Hwi-yool Kim

	Brain Sciences. 2020; 10(3): 141

	[Pubmed] [Google Scholar] [DOI]

105	MicroRNAs in Rectal Cancer: Functional Significance and Promising Therapeutic Value

	Laura Imedio,Ion Cristóbal,Jaime Rubio,Andrea Santos,Federico Rojo,Jesús García-Foncillas

	Cancers. 2020; 12(8): 2040

	[Pubmed] [Google Scholar] [DOI]

106	snoRNAs Offer Novel Insight and Promising Perspectives for Lung Cancer Understanding and Management

	Nour-El-Houda Mourksi,Chloé Morin,Tanguy Fenouil,Jean-Jacques Diaz,Virginie Marcel

	Cells. 2020; 9(3): 541

	[Pubmed] [Google Scholar] [DOI]

107	The Promise and Challenges of Developing miRNA-Based Therapeutics for Parkinson’s Disease

	Simoneide S. Titze-de-Almeida,Cristina Soto-Sánchez,Eduardo Fernandez,James B. Koprich,Jonathan M. Brotchie,Ricardo Titze-de-Almeida

	Cells. 2020; 9(4): 841

	[Pubmed] [Google Scholar] [DOI]

108	MiR-337-3p Promotes Adipocyte Browning by Inhibiting TWIST1

	Indira G.C. Vonhögen,Hamid el Azzouzi,Servé Olieslagers,Aliaksei Vasilevich,Jan de Boer,Francisco J. Tinahones,Paula A. da Costa Martins,Leon J. de Windt,Mora Murri

	Cells. 2020; 9(4): 1056

	[Pubmed] [Google Scholar] [DOI]

109	miR-615 Fine-Tunes Growth and Development and Has a Role in Cancer and in Neural Repair

	Marisol Godínez-Rubí,Daniel Ortuño-Sahagún

	Cells. 2020; 9(7): 1566

	[Pubmed] [Google Scholar] [DOI]

110	miR-7 Regulates GLP-1-Mediated Insulin Release by Targeting ß-Arrestin 1

	Alessandro Matarese,Jessica Gambardella,Angela Lombardi,Xujun Wang,Gaetano Santulli

	Cells. 2020; 9(7): 1621

	[Pubmed] [Google Scholar] [DOI]

111	MicroRNA Regulatory Pathways in the Control of the Actin–Myosin Cytoskeleton

	Karen Uray,Evelin Major,Beata Lontay

	Cells. 2020; 9(7): 1649

	[Pubmed] [Google Scholar] [DOI]

112	Current Status of microRNA-Based Therapeutic Approaches in Neurodegenerative Disorders

	Sujay Paul,Luis Alberto Bravo Vázquez,Samantha Pérez Uribe,Paula Roxana Reyes-Pérez,Ashutosh Sharma

	Cells. 2020; 9(7): 1698

	[Pubmed] [Google Scholar] [DOI]

113	miR-196B-5P and miR-200B-3P Are Differentially Expressed in Medulloblastomas of Adults and Children

	Michela Visani,Gianluca Marucci,Dario de Biase,Felice Giangaspero,Francesca Romana Buttarelli,Alba Ariela Brandes,Enrico Franceschi,Giorgia Acquaviva,Alessia Ciarrocchi,Kerry Jane Rhoden,Giovanni Tallini,Annalisa Pession

	Diagnostics. 2020; 10(5): 265

	[Pubmed] [Google Scholar] [DOI]

114	miR-146a-5p and miR-193a-5p Synergistically Inhibited the Proliferation of Human Colorectal Cancer Cells (HT-29 cell line) through ERK Signaling Pathway

	Saeed Noorolyai,Elham Baghbani,Dariush Shanehbandi,Vahid Khaze Shahgoli,Amir Baghbanzadeh Kojabad,Behzad Mansoori,Khalil Hajiasgharzadeh,Ahad Mokhtarzadeh,Behzad Baradaran

	Advanced Pharmaceutical Bulletin. 2020; 11(4): 755

	[Pubmed] [Google Scholar] [DOI]

115	Otoimmün tiroid hastaliklarinda CTLA-4 geninin in silico analizinin degerlendirilmesi

	Duygu KIRKIK,Sevgi KALKANLI,Eylem ÇAGILTAY,Nevin KALKANLI

	Journal of Medicine and Palliative Care. 2020;

	[Pubmed] [Google Scholar] [DOI]

116	Identification of Acute Myeloid Leukemia Bone Marrow Circulating MicroRNAs

	Douâa Moussa Agha,Redouane Rouas,Mehdi Najar,Fatima Bouhtit,Najib Naamane,Hussein Fayyad-Kazan,Dominique Bron,Nathalie Meuleman,Philippe Lewalle,Makram Merimi

	International Journal of Molecular Sciences. 2020; 21(19): 7065

	[Pubmed] [Google Scholar] [DOI]

117	Expression, Regulation and Function of microRNA as Important Players in the Transition of MDS to Secondary AML and Their Cross Talk to RNA-Binding Proteins

	Marcus Bauer,Christoforos Vaxevanis,Nadine Heimer,Haifa Kathrin Al-Ali,Nadja Jaekel,Michael Bachmann,Claudia Wickenhauser,Barbara Seliger

	International Journal of Molecular Sciences. 2020; 21(19): 7140

	[Pubmed] [Google Scholar] [DOI]

118	Expression of miR-26b in ovarian carcinoma tissues and its correlation with clinicopathology

	Jianjun Lu,Wei Zhang,Yang Ding,Xiang Li,Jiandong Song

	Oncology Letters. 2019;

	[Pubmed] [Google Scholar] [DOI]

119	Improved annotation of Lutzomyia longipalpis genome using bioinformatics analysis

	Zhiyuan Yang,Ying Wu

	PeerJ. 2019; 7: e7862

	[Pubmed] [Google Scholar] [DOI]

120	Differentially Expressed microRNAs in MIA PaCa-2 and PANC-1 Pancreas Ductal Adenocarcinoma Cell Lines are Involved in Cancer Stem Cell Regulation

	JenaJ Shen,JenaJ Pu,JenaJ Zheng,JenaJ Ma,JenaJ Qin,JenaJ Jiang,JenaJ Li

	International Journal of Molecular Sciences. 2019; 20(18): 4473

	[Pubmed] [Google Scholar] [DOI]

121	RAF Kinase Inhibitor Protein in Myeloid Leukemogenesis

	Armin Zebisch,Veronica Caraffini,Heinz Sill

	International Journal of Molecular Sciences. 2019; 20(22): 5756

	[Pubmed] [Google Scholar] [DOI]

122	A Brief Overview of lncRNAs in Endothelial Dysfunction-Associated Diseases: From Discovery to Characterization

	Rashidul Islam,Christopher Lai

	Epigenomes. 2019; 3(3): 20

	[Pubmed] [Google Scholar] [DOI]

123	Promising Directions in Atherosclerosis Treatment Based on Epigenetic Regulation Using MicroRNAs and Long Noncoding RNAs

	Daria Skuratovskaia,Maria Vulf,Aleksandra Komar,Elena Kirienkova,Larisa Litvinova

	Biomolecules. 2019; 9(6): 226

	[Pubmed] [Google Scholar] [DOI]

124	miRNAs in gastrointestinal diseases: can we effectively deliver RNA-based therapeutics orally?

	A K M Nawshad Hossian,Gerardo G Mackenzie,George Mattheolabakis

	Nanomedicine. 2019;

	[Pubmed] [Google Scholar] [DOI]

125	Cytokine Targeting by miRNAs in Autoimmune Diseases

	Valentina Salvi,Veronica Gianello,Laura Tiberio,Silvano Sozzani,Daniela Bosisio

	Frontiers in Immunology. 2019; 10

	[Pubmed] [Google Scholar] [DOI]

126	Novel Treatments for Polycystic Kidney Disease

	Ameya Patil,William E. Sweeney,Cynthia G. Pan,Ellis D. Avner,Meral Gunay-Aygun

	Translational Science of Rare Diseases. 2019; 4(1-2): 77

	[Pubmed] [Google Scholar] [DOI]

127	Application of microRNA in the therapy of ischemic stroke

	I. F. Gareev,L. B. Novikova,O. A. Beylerli

	Cardiovascular Therapy and Prevention. 2019; 18(5): 66

	[Pubmed] [Google Scholar] [DOI]

128	miR-181a/b downregulation exerts a protective action on mitochondrial disease models

	Alessia Indrieri,Sabrina Carrella,Alessia Romano,Alessandra Spaziano,Elena Marrocco,Erika Fernandez-Vizarra,Sara Barbato,Mariateresa Pizzo,Yulia Ezhova,Francesca M Golia,Ludovica Ciampi,Roberta Tammaro,Jorge Henao-Mejia,Adam Williams,Richard A Flavell,Elvira De Leonibus,Massimo Zeviani,Enrico M Surace,Sandro Banfi,Brunella Franco

	EMBO Molecular Medicine. 2019; 11(5)

	[Pubmed] [Google Scholar] [DOI]

129	Molecular Docking Study for Analyzing the Inhibitory Effect of Anti-inflammatory Plant Compound Against Tumour Necrosis Factor (TNF-a)

	Sagarika Biswas

	Current Drug Therapy. 2019; 14(1): 85

	[Pubmed] [Google Scholar] [DOI]

130	Applications of miRNAs in cardiac development, disease progression and regeneration

	Jeremy Kah Sheng Pang,Qian Hua Phua,Boon-Seng Soh

	Stem Cell Research & Therapy. 2019; 10(1)

	[Pubmed] [Google Scholar] [DOI]

131	The therapeutic effects of microRNAs in preclinical studies of acute kidney injury: a systematic review protocol

	Sarah Zankar,Rosendo A. Rodriguez,Jose Luis Vinas,Kevin D. Burns

	Systematic Reviews. 2019; 8(1)

	[Pubmed] [Google Scholar] [DOI]

132	A novel miR-365-3p/EHF/keratin 16 axis promotes oral squamous cell carcinoma metastasis, cancer stemness and drug resistance via enhancing ß5-integrin/c-met signaling pathway

	Wei-Chieh Huang,Te-Hsuan Jang,Shiao-Lin Tung,Tzu-Chen Yen,Shih-Hsuan Chan,Lu-Hai Wang

	Journal of Experimental & Clinical Cancer Research. 2019; 38(1)

	[Pubmed] [Google Scholar] [DOI]

133	Screening of microRNAs controlling body fat in Drosophila melanogaster and identification of miR-969 and its target, Gr47b

	William Redmond,Dylan Allen,M. Christian Elledge,Russell Arellanes,Lucille Redmond,Jared Yeahquo,Shuyin Zhang,Morgan Youngblood,Austin Reiner,Jin Seo,Gregg Roman

	PLOS ONE. 2019; 14(7): e0219707

	[Pubmed] [Google Scholar] [DOI]

134	Demonstrating specificity of bioactive peptide nucleic acids (PNAs) targeting microRNAs for practical laboratory classes of applied biochemistry and pharmacology

	Jessica Gasparello,Chiara Papi,Matteo Zurlo,Roberto Corradini,Roberto Gambari,Alessia Finotti,Maxim Antopolsky

	PLOS ONE. 2019; 14(9): e0221923

	[Pubmed] [Google Scholar] [DOI]

135	MicroRNA-193a and taxol combination: A new strategy for treatment of colorectal cancer

	Maryam Hejazi,Elham Baghbani,Mohammad Amini,Tayebeh Rezaei,Ayuob Aghanejad,Jafar Mosafer,Ahad Mokhtarzadeh,Behzad Baradaran

	Journal of Cellular Biochemistry. 2019;

	[Pubmed] [Google Scholar] [DOI]

136	miR-146b Reverses epithelial-mesenchymal transition via targeting PTP1B in cisplatin-resistance human lung adenocarcinoma cells

	Qian Han,Peng Cheng,Hongjie Yang,Hengpo Liang,Fengchun Lin

	Journal of Cellular Biochemistry. 2019;

	[Pubmed] [Google Scholar] [DOI]

137	Dgcr8 knockout approaches to understand microRNA functions in vitro and in vivo

	Wen-Ting Guo,Yangming Wang

	Cellular and Molecular Life Sciences. 2019;

	[Pubmed] [Google Scholar] [DOI]

138	Current Evidence on Potential Uses of MicroRNA Biomarkers for Migraine: From Diagnosis to Treatment

	Parisa Gazerani

	Molecular Diagnosis & Therapy. 2019;

	[Pubmed] [Google Scholar] [DOI]

139	Therapeutic microRNAs in human cancer

	Gizem Ors-Kumoglu,Sultan Gulce-Iz,Cigir Biray-Avci

	Cytotechnology. 2019;

	[Pubmed] [Google Scholar] [DOI]

140	A cross-cancer metastasis signature in the microRNA–mRNA axis of paired tissue samples

	Samuel C. Lee,Alistair Quinn,Thin Nguyen,Svetha Venkatesh,Thomas P. Quinn

	Molecular Biology Reports. 2019;

	[Pubmed] [Google Scholar] [DOI]

141	miR-146a-5p: Expression, regulation, and functions in cancer

	Joseph R. Iacona,Carol S. Lutz

	Wiley Interdisciplinary Reviews: RNA. 2019; : e1533

	[Pubmed] [Google Scholar] [DOI]

142	Early-onset preeclampsia, plasma microRNAs, and endothelial cell function

	Simone V. Lip,Mark V. Boekschoten,Guido J. Hooiveld,Mariëlle G. van Pampus,Sicco A. Scherjon,Torsten Plösch,Marijke M. Faas

	American Journal of Obstetrics and Gynecology. 2019;

	[Pubmed] [Google Scholar] [DOI]

143	Developmental origins of type 2 diabetes: Focus on epigenetics

	Alexander Vaiserman,Oleh Lushchak

	Ageing Research Reviews. 2019; 55: 100957

	[Pubmed] [Google Scholar] [DOI]

144	Small non-coding RNAs as important players, biomarkers and therapeutic targets in multiple sclerosis: A comprehensive overview

	Eliane Piket,Galina Yurevna Zheleznyakova,Lara Kular,Maja Jagodic

	Journal of Autoimmunity. 2019;

	[Pubmed] [Google Scholar] [DOI]

145	Preclinical Targeting of MicroRNA-214 in Cutaneous T-Cell Lymphoma

	Rebecca Kohnken,Betina McNeil,Jing Wen,Kathleen McConnell,Leah Grinshpun,Ashleigh Keiter,Luxi Chen,Basem William,Pierluigi Porcu,Anjali Mishra

	Journal of Investigative Dermatology. 2019;

	[Pubmed] [Google Scholar] [DOI]

146	Diabetic Nephropathy: the regulatory interplay between Epigenetics and microRNAs

	Himanshu Sankrityayan,Yogesh A. Kulkarni,Anil Bhanudas Gaikwad

	Pharmacological Research. 2019;

	[Pubmed] [Google Scholar] [DOI]

147	Efferocytosis and Atherosclerosis: Regulation of Phagocyte Function by MicroRNAs

	Amir Tajbakhsh,Vanessa Bianconi,Matteo Pirro,Seyed Mohammad Gheibi Hayat,Thomas P. Johnston,Amirhossein Sahebkar

	Trends in Endocrinology & Metabolism. 2019;

	[Pubmed] [Google Scholar] [DOI]

148	PATHOGENIC IMPLICATIONS OF DYSREGULATED miRNAs IN PROPIONIC ACIDEMIA RELATED CARDIOMYOPATHY

	Alejandro Fulgencio-Covián,Esmeralda Alonso-Barroso,Adam J Guenzel,Ana Rivera-Barahona,Magdalena Ugarte,Belén Pérez,Michael A Barry,Celia Pérez-Cerdá,Eva Richard,Lourdes R Desviat

	Translational Research. 2019;

	[Pubmed] [Google Scholar] [DOI]

149	miRNAs and their roles in KSHV pathogenesis

	Hosni A.M. Hussein,Mohammad A. Alfhili,Pranaya Pakala,Sandra Simon,Jaffer Hussain,James A. McCubrey,Shaw M. Akula

	Virus Research. 2019; 266: 15

	[Pubmed] [Google Scholar] [DOI]

150	Regulación por micro RNA de la respuesta angiogénica en la retina diabética

	Helena Cristina Campos-Borges,Silvia María Sanz-González,Vicente Zanón-Moreno,Jose María Millán Salvador,María Dolores Pinazo-Duran

	Archivos de la Sociedad Española de Oftalmología. 2019;

	[Pubmed] [Google Scholar] [DOI]

151	Micro-RNA regulation of the angiogenic response in the diabetic retina

	H.C. Campos-Borges,S.M. Sanz-González,V. Zanón-Moreno,J.M. Millán Salvador,M.D. Pinazo-Duran

	Archivos de la Sociedad Española de Oftalmología (English Edition). 2019;

	[Pubmed] [Google Scholar] [DOI]

152	A Sendai Virus-Based Cytoplasmic RNA Vector as a Novel Platform for Long-Term Expression of MicroRNAs

	Masayuki Sano,Asako Nakasu,Manami Ohtaka,Mahito Nakanishi

	Molecular Therapy - Methods & Clinical Development. 2019; 15: 371

	[Pubmed] [Google Scholar] [DOI]

153	Abnormal Expression of miR-21 in Kidney Tissue of Dogs With X-Linked Hereditary Nephropathy: A Canine Model of Chronic Kidney Disease

	Sabrina D. Clark,Wenping Song,Rachel Cianciolo,George Lees,Mary Nabity,Shiguang Liu

	Veterinary Pathology. 2019; 56(1): 93

	[Pubmed] [Google Scholar] [DOI]

154	Encapsulated miR-200c and Nkx2.1 in a nuclear/mitochondria transcriptional regulatory network of non-metastatic and metastatic lung cancer cells

	Olga D’Almeida,Omar Mothar,Esther Apraku Bondzie,Yolande Lieumo,Laure Tagne,Sumeet Gupta,Thomas Volkert,Stuart Levine,Jean-Bosco Tagne

	BMC Cancer. 2019; 19(1)

	[Pubmed] [Google Scholar] [DOI]

155	Adipokines Regulate the Expression of Tumor-Relevant MicroRNAs

	Simon Jasinski-Bergner, Heike Kielstein

	Obesity Facts. 2019; 12(2): 211

	[Pubmed] [Google Scholar] [DOI]

156	MicroRNA-let-7c suppresses hepatitis C virus replication by targeting Bach1 for induction of haem oxygenase-1 expression

	Wei-Chun Chen,Chih-Ku Wei,Jin-Ching Lee

	Journal of Viral Hepatitis. 2019;

	[Pubmed] [Google Scholar] [DOI]

157	The Purinergic System as a Pharmacological Target for the Treatment of Immune-Mediated Inflammatory Diseases

	Luca Antonioli,Corrado Blandizzi,Pál Pacher,György Haskó,Clive Page

	Pharmacological Reviews. 2019; 71(3): 345

	[Pubmed] [Google Scholar] [DOI]

158	Efficient Delivery of MicroRNA and AntimiRNA Molecules Using an Argininocalix[4]arene Macrocycle

	Jessica Gasparello,Michela Lomazzi,Chiara Papi,Elisabetta D’Aversa,Francesco Sansone,Alessandro Casnati,Gaetano Donofrio,Roberto Gambari,Alessia Finotti

	Molecular Therapy - Nucleic Acids. 2019; 18: 748

	[Pubmed] [Google Scholar] [DOI]

159	miR-146a targeted to splenic macrophages prevents sepsis-induced multiple organ injury

	Yoshio Funahashi,Noritoshi Kato,Tomohiro Masuda,Fumitoshi Nishio,Hiroki Kitai,Takuji Ishimoto,Tomoki Kosugi,Naotake Tsuboi,Naoyuki Matsuda,Shoichi Maruyama,Kenji Kadomatsu

	Laboratory Investigation. 2019;

	[Pubmed] [Google Scholar] [DOI]

160	Molecular mechanism of miR-204 regulates proliferation, apoptosis and autophagy of cervical cancer cells by targeting ATF2

	Nan Li,XiaoRong Guo,Lei Liu,Lu Wang,Rongjie Cheng

	Artificial Cells, Nanomedicine, and Biotechnology. 2019; 47(1): 2529

	[Pubmed] [Google Scholar] [DOI]

161	Dysregulated Expression of microRNA-21 and Disease-Related Genes in Human Patients and in a Mouse Model of Alport Syndrome

	Jifan Guo,Wenping Song,Joseph Boulanger,Ethan Y. Xu,Fang Wang,Yanqin Zhang,Qun He,Suxia Wang,Li Yang,Cynthia Pryce,Lucy Phillips,Deidre MacKenna,Ekkehard Leberer,Oxana Ibraghimov-Beskrovnaya,Jie Ding,Shiguang Liu

	Human Gene Therapy. 2019;

	[Pubmed] [Google Scholar] [DOI]

162	Pathogenesis and treatment of autoimmune rheumatic diseases

	Eric Liu,Andras Perl

	Current Opinion in Rheumatology. 2019; 31(3): 307

	[Pubmed] [Google Scholar] [DOI]

163	MicroRNA-519d-3p inhibits cell proliferation and cell cycle G1/S transition in glioma by targeting CCND1

	Lishan Ma,Jin Li

	Bioscience, Biotechnology, and Biochemistry. 2019; : 1

	[Pubmed] [Google Scholar] [DOI]

164	A journey through the emergence of nanomedicines with poly(alkylcyanoacrylate) based nanoparticles

	Christine Vauthier

	Journal of Drug Targeting. 2019; : 1

	[Pubmed] [Google Scholar] [DOI]

165	Transcriptomic studies provide insights into the tumor suppressive role of miR-146a-5p in non-small cell lung cancer (NSCLC) cells

	Joseph R. Iacona,Nicholas J. Monteleone,Alexander D. Lemenze,Ashley L. Cornett,Carol S. Lutz

	RNA Biology. 2019; : 1

	[Pubmed] [Google Scholar] [DOI]

166	Inhibition of microRNA-711 limits angiopoietin-1 and Akt changes, tissue damage, and motor dysfunction after contusive spinal cord injury in mice

	Boris Sabirzhanov,Jessica Matyas,Marina Coll-Miro,Laina Lijia Yu,Alan I. Faden,Bogdan A. Stoica,Junfang Wu

	Cell Death & Disease. 2019; 10(11)

	[Pubmed] [Google Scholar] [DOI]

167	Adipocyte metabolism is improved by TNF receptor-targeting small RNAs identified from dried nuts

	Katia Aquilano,Veronica Ceci,Angelo Gismondi,Susanna De Stefano,Federico Iacovelli,Raffaella Faraonio,Gabriele Di Marco,Noemi Poerio,Antonella Minutolo,Giuseppina Minopoli,Antonia Marcone,Maurizio Fraziano,Flavia Tortolici,Simona Sennato,Stefano Casciardi,Marina Potestà,Roberta Bernardini,Maurizio Mattei,Mattia Falconi,Carla Montesano,Stefano Rufini,Antonella Canini,Daniele Lettieri-Barbato

	Communications Biology. 2019; 2(1)

	[Pubmed] [Google Scholar] [DOI]

168	TGF-ß induces miR-100 and miR-125b but blocks let-7a through LIN28B controlling PDAC progression

	Silvia Ottaviani,Justin Stebbing,Adam E. Frampton,Sladjana Zagorac,Jonathan Krell,Alexander de Giorgio,Sara M. Trabulo,Van T. M. Nguyen,Luca Magnani,Hugang Feng,Elisa Giovannetti,Niccola Funel,Thomas M. Gress,Long R. Jiao,Ylenia Lombardo,Nicholas R. Lemoine,Christopher Heeschen,Leandro Castellano

	Nature Communications. 2018; 9(1)

	[Pubmed] [Google Scholar] [DOI]

169	Diabetes induces the activation of pro-ageing miR-34a in the heart, but has differential effects on cardiomyocytes and cardiac progenitor cells

	Ingrid Fomison-Nurse,Eugene Eng Leng Saw,Sophie Gandhi,Pujika Emani Munasinghe,Isabelle Van Hout,Michael J. A Williams,Ivor Galvin,Richard Bunton,Philip Davis,Vicky Cameron,Rajesh Katare

	Cell Death & Differentiation. 2018;

	[Pubmed] [Google Scholar] [DOI]

170	The silent healer: miR-205-5p up-regulation inhibits epithelial to mesenchymal transition in colon cancer cells by indirectly up-regulating E-cadherin expression

	Diana Gulei,Lorand Magdo,Ancuta Jurj,Lajos Raduly,Roxana Cojocneanu-Petric,Alin Moldovan,Cristian Moldovan,Adrian Florea,Sergiu Pasca,Laura-Ancuta Pop,Vlad Moisoiu,Liviuta Budisan,Cecilia Pop-Bica,Cristina Ciocan,Rares Buiga,Mihai-Stefan Muresan,Rares Stiufiuc,Calin Ionescu,Ioana Berindan-Neagoe

	Cell Death & Disease. 2018; 9(2)

	[Pubmed] [Google Scholar] [DOI]

171	PTBP1 enhances miR-101-guided AGO2 targeting to MCL1 and promotes miR-101-induced apoptosis

	Jia Cui,William J. Placzek

	Cell Death & Disease. 2018; 9(5)

	[Pubmed] [Google Scholar] [DOI]

172	New insights into the genetics and epigenetics of systemic sclerosis

	Chiara Angiolilli,Wioleta Marut,Maarten van der Kroef,Eleni Chouri,Kris A. Reedquist,Timothy R. D. J. Radstake

	Nature Reviews Rheumatology. 2018;

	[Pubmed] [Google Scholar] [DOI]

173	Muscle miRNAome shows suppression of chronic inflammatory miRNAs with both prednisone and vamorolone

	Alyson A. Fiorillo,Christopher B. Tully,Jesse M. Damsker,Kanneboyina Nagaraju,Eric P. Hoffman,Christopher R. Heier

	Physiological Genomics. 2018; 50(9): 735

	[Pubmed] [Google Scholar] [DOI]

174	Role of microRNA-223 in the regulation of poly(ADP-ribose) polymerase in pediatric patients with Crohn’s disease

	Nóra Judit Béres,Zoltán Kiss,Katalin E. Müller,Áron Cseh,Apor Veres-Székely,Rita Lippai,Rita Benko,Árpád Bartha,Szabolcs Heininger,Ádám Vannay,Erna Sziksz,Gábor Veres,Eszter M. Horváth

	Scandinavian Journal of Gastroenterology. 2018; : 1

	[Pubmed] [Google Scholar] [DOI]

175	MicroRNA-based therapeutics in central nervous system injuries

	Ping Sun,Da Zhi Liu,Glen C Jickling,Frank R Sharp,Ke-Jie Yin

	Journal of Cerebral Blood Flow & Metabolism. 2018; 38(7): 1125

	[Pubmed] [Google Scholar] [DOI]

176	Liquid biopsy in mice bearing colorectal carcinoma xenografts: gateways regulating the levels of circulating tumor DNA (ctDNA) and miRNA (ctmiRNA)

	Jessica Gasparello,Matteo Allegretti,Elisa Tremante,Enrica Fabbri,Carla Azzurra Amoreo,Paolo Romania,Elisa Melucci,Katia Messana,Monica Borgatti,Patrizio Giacomini,Roberto Gambari,Alessia Finotti

	Journal of Experimental & Clinical Cancer Research. 2018; 37(1)

	[Pubmed] [Google Scholar] [DOI]

177	MicroRNAs: Roles in Regulating Neuroinflammation

	Andrew D. Gaudet,Laura K. Fonken,Linda R. Watkins,Randy J. Nelson,Phillip G. Popovich

	The Neuroscientist. 2018; 24(3): 221

	[Pubmed] [Google Scholar] [DOI]

178	Enhancer Remodeling and MicroRNA Alterations Are Associated with Acquired Resistance to ALK Inhibitors

	Mi Ran Yun,Sun Min Lim,Seon-Kyu Kim,Hun Mi Choi,Kyoung-Ho Pyo,Seong Keun Kim,Ji Min Lee,You Won Lee,Jae Woo Choi,Hye Ryun Kim,Min Hee Hong,Keeok Haam,Nanhyung Huh,Jong-Hwan Kim,Yong Sung Kim,Hyo Sup Shim,Ross Andrew Soo,Jin-Yuan Shih,James Chih-Hsin Yang,Mirang Kim,Byoung Chul Cho

	Cancer Research. 2018; 78(12): 3350

	[Pubmed] [Google Scholar] [DOI]

179	miRTissue: a web application for the analysis of miRNA-target interactions in human tissues

	Antonino Fiannaca,Massimo La Rosa,Laura La Paglia,Alfonso Urso

	BMC Bioinformatics. 2018; 19(S15)

	[Pubmed] [Google Scholar] [DOI]

180	Predictive modeling of miRNA-mediated predisposition to alcohol-related phenotypes in mouse

	Pratyaydipta Rudra,Wen J. Shi,Pamela Russell,Brian Vestal,Boris Tabakoff,Paula Hoffman,Katerina Kechris,Laura Saba

	BMC Genomics. 2018; 19(1)

	[Pubmed] [Google Scholar] [DOI]

181	Exosome-Mediated Small RNA Delivery: A Novel Therapeutic Approach for Inflammatory Lung Responses

	Duo Zhang,Heedoo Lee,Xiaoyun Wang,Ashish Rai,Michael Groot,Yang Jin

	Molecular Therapy. 2018;

	[Pubmed] [Google Scholar] [DOI]

182	At the heart of programming: the role of micro-RNAs

	B. Siddeek,C. Mauduit,C. Yzydorczyk,M. Benahmed,U. Simeoni

	Journal of Developmental Origins of Health and Disease. 2018; : 1

	[Pubmed] [Google Scholar] [DOI]

183	Combined Therapy in Cancer: The Non-coding Approach

	Diana Gulei,Ioana Berindan-Neagoe

	Molecular Therapy - Nucleic Acids. 2018; 12: 787

	[Pubmed] [Google Scholar] [DOI]

184	Multifunctional nanocarrier as a potential micro-RNA delivery vehicle for neuroblastoma treatment

	Ndumiso Vukile Mdlovu,Yun Chen,Kuen-Song Lin,Ming-Wei Hsu,Steven S.-S. Wang,Chun-Ming Wu,You-Sheng Lin,Kazuki Ohishi

	Journal of the Taiwan Institute of Chemical Engineers. 2018;

	[Pubmed] [Google Scholar] [DOI]

185	Expression Analysis of microRNA-21 and microRNA-122 in Hepatocellular Carcinoma

	Dipu Bharali,Basu Dev Banerjee,Mausumi Bharadwaj,Syed Akhtar Husain,Premashis Kar

	Journal of Clinical and Experimental Hepatology. 2018;

	[Pubmed] [Google Scholar] [DOI]

186	Reproductive role of miRNA in the hypothalamic-pituitary axis

	Chunyu Cao,Yifei Ding,Xiangjun Kong,Guangde Feng,Wei Xiang,Long Chen,Fang Yang,Ke Zhang,Mingxing Chu,Pingqing Wang,Baoyun Zhang

	Molecular and Cellular Neuroscience. 2018; 88: 130

	[Pubmed] [Google Scholar] [DOI]

187	MicroRNA-124 and microRNA-146a both attenuate persistent neuropathic pain induced by morphine in male rats

	Peter M. Grace,Keith A. Strand,Erika L. Galer,Steven F. Maier,Linda R. Watkins

	Brain Research. 2018; 1692: 9

	[Pubmed] [Google Scholar] [DOI]

188	Perspectives on the physiological roles of microRNAs in immune-metabolism: Where are we now?

	Shuai Jiang

	Cancer Letters. 2018; 426: 1

	[Pubmed] [Google Scholar] [DOI]

189	Epigenetic Changes in Airway Smooth Muscle as a Driver of Airway Inflammation and Remodeling in Asthma

	Klaudia A. Kaczmarek,Rachel L. Clifford,Alan J. Knox

	Chest. 2018;

	[Pubmed] [Google Scholar] [DOI]

190	Analysis of microRNA and modified oligonucleotides with the use of ultra high performance liquid chromatography coupled with mass spectrometry

	Sylwia Studzinska,Boguslaw Buszewski

	Journal of Chromatography A. 2018;

	[Pubmed] [Google Scholar] [DOI]

191	Therapeutic applications of zebrafish (Danio rerio) miRNAs linked with human diseases: A prospective review

	Manojit Bhattacharya,Soumendu Ghosh,Ramesh Chandra Malick,Bidhan Chandra Patra,Basanta Kumar Das

	Gene. 2018; 679: 202

	[Pubmed] [Google Scholar] [DOI]

192	An innovative paradigm of methods in microRNAs detection: highlighting DNAzymes, the illuminators

	Mojdeh Mahdiannasser,Zahra Karami

	Biosensors and Bioelectronics. 2018; 107: 123

	[Pubmed] [Google Scholar] [DOI]

193	Biomarkers in Spinal Cord Injury: from Prognosis to Treatment

	Leonardo Fonseca Rodrigues,Vivaldo Moura-Neto,Tania Cristina Leite de Sampaio e Spohr

	Molecular Neurobiology. 2018;

	[Pubmed] [Google Scholar] [DOI]

194	Calcium-Binding Nanoparticles for Vascular Disease

	Deborah D. Chin,Sampreeti Chowdhuri,Eun Ji Chung

	Regenerative Engineering and Translational Medicine. 2018;

	[Pubmed] [Google Scholar] [DOI]

195	A physiologically relevant 3D collagen-based scaffold–neuroblastoma cell system exhibits chemosensitivity similar to orthotopic xenograft models

	C. Curtin,J.C. Nolan,R. Conlon,L. Deneweth,C. Gallagher,Y.J. Tan,B.L. Cavanagh,A.Z. Asraf,H. Harvey,S. Miller-Delaney,J. Shohet,I. Bray,F.J. OæBrien,R.L. Stallings,O. Piskareva

	Acta Biomaterialia. 2018;

	[Pubmed] [Google Scholar] [DOI]

196	Emerging ways to treat breast cancer: will promises be met?

	Pouria Samadi,Sahar Saki,Fatemeh Karimi Dermani,Mona Pourjafar,Massoud Saidijam

	Cellular Oncology. 2018;

	[Pubmed] [Google Scholar] [DOI]

197	The MicroRNA-326: Autoimmune diseases, diagnostic biomarker, and therapeutic target

	Golamreza Jadideslam,Khalil Ansarin,Ebrahim Sakhinia,Shahriar Alipour,Farhad Pouremamali,Alireza Khabbazi

	Journal of Cellular Physiology. 2018;

	[Pubmed] [Google Scholar] [DOI]

198	miRNAs regulate the HIF switch during hypoxia: a novel therapeutic target

	Marcin Serocki,Sylwia Bartoszewska,Anna Janaszak-Jasiecka,Renata J. Ochocka,James F. Collawn,Rafal Bartoszewski

	Angiogenesis. 2018;

	[Pubmed] [Google Scholar] [DOI]

199	miR-30a-5p inhibition promotes interaction of Fas+ endothelial cells and FasL+ microglia to decrease pathological neovascularization and promote physiological angiogenesis

	Salome Murinello,Yoshihiko Usui,Susumu Sakimoto,Maki Kitano,Edith Aguilar,H. Maura Friedlander,Amelia Schricker,Carli Wittgrove,Yoshihiro Wakabayashi,Michael I. Dorrell,Peter D. Westenskow,Martin Friedlander

	Glia. 2018;

	[Pubmed] [Google Scholar] [DOI]

200	MicroRNAs regulate survival in oxygen-deprived environments

	Simon G. English,Hanane Hadj-Moussa,Kenneth B. Storey

	The Journal of Experimental Biology. 2018; 221(23): jeb190579

	[Pubmed] [Google Scholar] [DOI]

201	MicroRNA expression in melanocytes and melanoma cells

	A. A. Petkevich,I. Sh. Shubina,A. A. Abramov,L. T. Mamedova,I. V. Samoilenko,M. V. Kiselevsky

	Russian Journal of Biotherapy. 2018; 17(3): 6

	[Pubmed] [Google Scholar] [DOI]

202	Pentafluoropropionic Anhydride Functionalized PAMAM Dendrimer as miRNA Delivery Reagent

	Ali Oztuna,Hasan Nazir

	Journal of the Turkish Chemical Society, Section A: Chemistry. 2018; : 1295

	[Pubmed] [Google Scholar] [DOI]

203	Prognostic Value of MicroRNAs in Coronary Artery Diseases: A Meta-Analysis

	Ji Suk Kim,Kyoungjune Pak,Tae Sik Goh,Dae Cheon Jeong,Myoung-Eun Han,Jihyun Kim,Sae-Ock Oh,Chi Dae Kim,Yun Hak Kim

	Yonsei Medical Journal. 2018; 59(4): 495

	[Pubmed] [Google Scholar] [DOI]

204	The Emerging Role of microRNAs in Aquaporin Regulation

	André Gomes,Inês V. da Silva,Cecília M. P. Rodrigues,Rui E. Castro,Graça Soveral

	Frontiers in Chemistry. 2018; 6

	[Pubmed] [Google Scholar] [DOI]

205	miRNA in a multiomic context for diagnosis, treatment monitoring and personalized management of metastatic breast cancer

	Pavol Zubor,Peter Kubatka,Zuzana Dankova,Alexandra Gondova,Karol Kajo,Jozef Hatok,Marek Samec,Marianna Jagelkova,Stefan Krivus,Veronika Holubekova,Jan Bujnak,Zuzana Laucekova,Katarina Zelinova,Igor Stastny,Marcela Nachajova,Jan Danko,Olga Golubnitschaja

	Future Oncology. 2018;

	[Pubmed] [Google Scholar] [DOI]

206	Temporal Integrative Analysis of mRNA and microRNAs Expression Profiles and Epigenetic Alterations in Female SAMP8, a Model of Age-Related Cognitive Decline

	Marta Cosín-Tomás,María Jesús Álvarez-López,Júlia Companys-Alemany,Perla Kaliman,Celia González-Castillo,Daniel Ortuño-Sahagún,Mercè Pallàs,Christian Griñán-Ferré

	Frontiers in Genetics. 2018; 9

	[Pubmed] [Google Scholar] [DOI]

207	miR-182 and miR-183 Promote Cell Proliferation and Invasion by Targeting FOXO1 in Mesothelioma

	Rui Suzuki,Vishwa Jeet Amatya,Kei Kushitani,Yuichiro Kai,Takahiro Kambara,Yukio Takeshima

	Frontiers in Oncology. 2018; 8

	[Pubmed] [Google Scholar] [DOI]

208	Targeting Non-coding RNA in Vascular Biology and Disease

	John Hung,Vladislav Miscianinov,Judith C. Sluimer,David E. Newby,Andrew H. Baker

	Frontiers in Physiology. 2018; 9

	[Pubmed] [Google Scholar] [DOI]

209	Downregulated microRNAs in the colorectal cancer: diagnostic and therapeutic perspectives

	Rosa Hernández,Ester Sánchez-Jiménez,Consolación Melguizo,Jose Prados,Ana Rosa Rama

	BMB Reports. 2018; 51(11): 563

	[Pubmed] [Google Scholar] [DOI]

210	Unique interstitial miRNA signature drives fibrosis in a murine model of autosomal dominant polycystic kidney disease

	Ameya Patil,William E Sweeney Jr,Cynthia G Pan,Ellis D Avner

	World Journal of Nephrology. 2018; 7(5): 108

	[Pubmed] [Google Scholar] [DOI]

211	MicroRNAs in the prognosis and therapy of colorectal cancer: From bench to bedside

	Kenneth KW To,Christy WS Tong,Mingxia Wu,William CS Cho

	World Journal of Gastroenterology. 2018; 24(27): 2949

	[Pubmed] [Google Scholar] [DOI]

212	MicroRNA-124-3p attenuates severe community-acquired pneumonia progression in macrophages by targeting tumor necrosis factor receptor-associated factor 6

	Wei Gao,Hongxia Yang

	International Journal of Molecular Medicine. 2018;

	[Pubmed] [Google Scholar] [DOI]

213	MicroRNA-766 inhibits the malignant biological behaviours of pancreatic ductal adenocarcinoma by directly targeting ETS1

	Shiquan Li,Guoqiang Yan,Meng Yue,Zhenhua Kang,Lei Wang

	Molecular Medicine Reports. 2018;

	[Pubmed] [Google Scholar] [DOI]

214	Establishment of an miR-137-knockout cell model using CRISPR/Cas9 genome editing

	Wei Chen,Qi Li,Jingjie Du,Xiaodi Li,Songshan Jiang,Yuanli He

	Oncology Letters. 2018;

	[Pubmed] [Google Scholar] [DOI]

215	Regulatory role of microRNA on inflammatory responses of diabetic retinopathy

	Eun-Ah Ye,JenaJ Steinle

	Neural Regeneration Research. 2017; 12(4): 580

	[Pubmed] [Google Scholar] [DOI]

216	Non-coding RNA Contribution to Thoracic and Abdominal Aortic Aneurysm Disease Development and Progression

	Yuhuang Li,Lars Maegdefessel

	Frontiers in Physiology. 2017; 8

	[Pubmed] [Google Scholar] [DOI]

217	Role of Non-Coding RNAs in the Etiology of Bladder Cancer

	Caterina Gulìa,Stefano Baldassarra,Fabrizio Signore,Giuliano Rigon,Valerio Pizzuti,Marco Gaffi,Vito Briganti,Alessandro Porrello,Roberto Piergentili

	Genes. 2017; 8(12): 339

	[Pubmed] [Google Scholar] [DOI]

218	Hypoxia in CNS Pathologies: Emerging Role of miRNA-Based Neurotherapeutics and Yoga Based Alternative Therapies

	Gillipsie Minhas,Deepali Mathur,Balakrishnan Ragavendrasamy,Neel K. Sharma,Viraaj Paanu,Akshay Anand

	Frontiers in Neuroscience. 2017; 11

	[Pubmed] [Google Scholar] [DOI]

219	Noncoding RNA in drug resistant sarcoma

	Xiaoyang Li,Jacson K. Shen,Francis J. Hornicek,Tao Xiao,Zhenfeng Duan

	Oncotarget. 2017; 8(40): 69086

	[Pubmed] [Google Scholar] [DOI]

220	microRNAs in lipoprotein and lipid metabolism: from biological function to clinical application

	Véronique Desgagné,Luigi Bouchard,Renée Guérin

	Clinical Chemistry and Laboratory Medicine (CCLM). 2017; 55(5)

	[Pubmed] [Google Scholar] [DOI]

221	microRNAs in cardiovascular disease – clinical application

	Christian Schulte,Mahir Karakas,Tanja Zeller

	Clinical Chemistry and Laboratory Medicine (CCLM). 2017; 55(5)

	[Pubmed] [Google Scholar] [DOI]

222	miRNA analysis in pancreatic cancer: the Dartmouth experience

	Francine B. de Abreu,Xiaoying Liu,Gregory J. Tsongalis

	Clinical Chemistry and Laboratory Medicine (CCLM). 2017; 55(5)

	[Pubmed] [Google Scholar] [DOI]

223	Advances in the delivery of RNA therapeutics: from concept to clinical reality

	James C. Kaczmarek,Piotr S. Kowalski,Daniel G. Anderson

	Genome Medicine. 2017; 9(1)

	[Pubmed] [Google Scholar] [DOI]

224	A Circulating microRNA Signature Predicts Age-Based Development of Lymphoma

	Afshin Beheshti,Charles Vanderburg,J. Tyson McDonald,Charusheila Ramkumar,Tatenda Kadungure,Hong Zhang,Ronald B. Gartenhaus,Andrew M. Evens,Jianjun Zhao

	PLOS ONE. 2017; 12(1): e0170521

	[Pubmed] [Google Scholar] [DOI]

225	Positive radionuclide imaging of miRNA expression using RILES and the human sodium iodide symporter as reporter gene is feasible and supports a protective role of miRNA-23a in response to muscular atrophy

	Viorel Simion,Julien Sobilo,Rudy Clemoncon,Sharuja Natkunarajah,Safia Ezzine,Florence Abdallah,Stephanie Lerondel,Chantal Pichon,Patrick Baril,Juri G. Gelovani

	PLOS ONE. 2017; 12(5): e0177492

	[Pubmed] [Google Scholar] [DOI]

226	I?K-16 decreases miRNA-155 expression and attenuates the human monocyte inflammatory response

	Norman James Galbraith,James Burton,Mathew Brady Ekman,Joseph Kenney,Samuel Patterson Walker,Stephen Manek,Campbell Bishop,Jane Victoria Carter,Sarah Appel Gardner,Hiram C. Polk,Partha Mukhopadhyay

	PLOS ONE. 2017; 12(9): e0183987

	[Pubmed] [Google Scholar] [DOI]

227	miR-497 accelerates oxidized low-density lipoprotein-induced lipid accumulation in macrophages by repressing the expression of apelin

	Junfeng Cui,Zhong Ren,Wenshuang Zou,Yanling Jiang

	Cell Biology International. 2017; 41(9): 1012

	[Pubmed] [Google Scholar] [DOI]

228	Role of miRNAs in human disease and inborn errors of metabolism

	Ana Rivera-Barahona,Belén Pérez,Eva Richard,Lourdes R. Desviat

	Journal of Inherited Metabolic Disease. 2017;

	[Pubmed] [Google Scholar] [DOI]

229	Triangle of AKT2, miRNA, and Tumorigenesis in Different Cancers

	Maryam Honardoost,Seyed Mohammad Ali Hosseini Rad

	Applied Biochemistry and Biotechnology. 2017;

	[Pubmed] [Google Scholar] [DOI]

230	A Concise Review of MicroRNA Exploring the Insights of MicroRNA Regulations in Bacterial, Viral and Metabolic Diseases

	Ahsan Naveed,Sajjad ur-Rahman,Sabahat Abdullah,Muhammad Ammar Naveed

	Molecular Biotechnology. 2017;

	[Pubmed] [Google Scholar] [DOI]

231	MicroRNAs in injury and repair

	Cory V. Gerlach,Vishal S. Vaidya

	Archives of Toxicology. 2017;

	[Pubmed] [Google Scholar] [DOI]

232	Microvesicle-mediated delivery of miR-1343: impact on markers of fibrosis

	Lindsay R. Stolzenburg,Ann Harris

	Cell and Tissue Research. 2017;

	[Pubmed] [Google Scholar] [DOI]

233	MicroRNA-467g inhibits new bone regeneration by targeting Ihh/Runx-2 signaling

	Jyoti Kureel,Aijaz A John,Manisha Dixit,Divya Singh

	The International Journal of Biochemistry & Cell Biology. 2017;

	[Pubmed] [Google Scholar] [DOI]

234	MTDH and MAP3K1 are direct targets of apoptosis-regulating miRNAs in colorectal carcinoma

	Sohair M. Salem,Ahmed R. Hamed,Rehab M. Mosaad

	Biomedicine & Pharmacotherapy. 2017; 94: 767

	[Pubmed] [Google Scholar] [DOI]

235	Small non coding RNAs in adipocyte biology and obesity

	Ez-Zoubir Amri,Marcel Scheideler

	Molecular and Cellular Endocrinology. 2017;

	[Pubmed] [Google Scholar] [DOI]

236	Potent Anti-seizure Effects of Locked Nucleic Acid Antagomirs Targeting miR-134 in Multiple Mouse and Rat Models of Epilepsy

	Cristina R. Reschke,Luiz F. Almeida Silva,Braxton A. Norwood,Ketharini Senthilkumar,Gareth Morris,Amaya Sanz-Rodriguez,Ronán M. Conroy,Lara Costard,Valentin Neubert,Sebastian Bauer,Michael A. Farrell,Donncha F. O’Brien,Norman Delanty,Stephanie Schorge,R. Jeroen Pasterkamp,Felix Rosenow,David C. Henshall

	Molecular Therapy - Nucleic Acids. 2017; 6: 45

	[Pubmed] [Google Scholar] [DOI]

237	MiR-145 ameliorates neuropathic pain via inhibiting inflammatory responses and mTOR signaling pathway by targeting Akt3 in a rat model

	Jinshan Shi,Ke Jiang,Zhaoduan Li

	Neuroscience Research. 2017;

	[Pubmed] [Google Scholar] [DOI]

238	Inflammasome Priming in Sterile Inflammatory Disease

	Meghana N. Patel,Richard G. Carroll,Silvia Galván-Peña,Evanna L. Mills,Robin Olden,Martha Triantafilou,Amaya I. Wolf,Clare E. Bryant,Kathy Triantafilou,Seth L. Masters

	Trends in Molecular Medicine. 2017; 23(2): 165

	[Pubmed] [Google Scholar] [DOI]

239	The roles of non-coding RNAs in cardiac regenerative medicine

	Oi Kuan Choong,Desy S. Lee,Chen-Yun Chen,Patrick C.H. Hsieh

	Non-coding RNA Research. 2017;

	[Pubmed] [Google Scholar] [DOI]

240	MicroRNAs as future therapeutic targets in COPD?

	Ken R. Bracke,Pieter Mestdagh

	European Respiratory Journal. 2017; 49(5): 1700431

	[Pubmed] [Google Scholar] [DOI]

241	Role of microRNAs in obesity and obesity-related diseases

	Giuseppe Iacomino,Alfonso Siani

	Genes & Nutrition. 2017; 12(1)

	[Pubmed] [Google Scholar] [DOI]

242	miR-193a-3p is a Key Tumor Suppressor in Ulcerative Colitis–Associated Colon Cancer and Promotes Carcinogenesis through Upregulation of IL17RD

	Joel Pekow,Katherine Meckel,Urszula Dougherty,Yong Huang,Xindi Chen,Anas Almoghrabi,Reba Mustafi,Fatma Ayaloglu-Butun,Zifeng Deng,Haider I. Haider,John Hart,David T. Rubin,John H. Kwon,Marc Bissonnette

	Clinical Cancer Research. 2017; 23(17): 5281

	[Pubmed] [Google Scholar] [DOI]

243	T-ALL and thymocytes: a message of noncoding RNAs

	Annelynn Wallaert,Kaat Durinck,Tom Taghon,Pieter Van Vlierberghe,Frank Speleman

	Journal of Hematology & Oncology. 2017; 10(1)

	[Pubmed] [Google Scholar] [DOI]

244	MicroRNA-135a regulates NHE9 to inhibit proliferation and migration of glioblastoma cells

	Daniela M. Gomez Zubieta,Mohamed A. Hamood,Rami Beydoun,Ashley E. Pall,Kalyan C. Kondapalli

	Cell Communication and Signaling. 2017; 15(1)

	[Pubmed] [Google Scholar] [DOI]

245	The Potential of MicroRNAs as Novel Biomarkers for Transplant Rejection

	Matthias Hamdorf,Satoru Kawakita,Matthew Everly

	Journal of Immunology Research. 2017; 2017: 1

	[Pubmed] [Google Scholar] [DOI]

246	Colorectal Cancer: From the Genetic Model to Posttranscriptional Regulation by Noncoding RNAs

	María Antonia Lizarbe,Jorge Calle-Espinosa,Eva Fernández-Lizarbe,Sara Fernández-Lizarbe,Miguel Ángel Robles,Nieves Olmo,Javier Turnay

	BioMed Research International. 2017; 2017: 1

	[Pubmed] [Google Scholar] [DOI]

247	Systems genetics identifies a co-regulated module of liver microRNAs associated with plasma LDL cholesterol in murine diet-induced dyslipidemia

	Alisha R. Coffey,Tangi L. Smallwood,Jody Albright,Kunjie Hua,Matt Kanke,Daniel Pomp,Brian J. Bennett,Praveen Sethupathy

	Physiological Genomics. 2017; 49(11): 618

	[Pubmed] [Google Scholar] [DOI]

248	New Dancing Couple: PD-L1 and MicroRNA

	A. Grenda,P. Krawczyk

	Scandinavian Journal of Immunology. 2017; 86(3): 130

	[Pubmed] [Google Scholar] [DOI]

249	Dysregulated miRNAs and their pathogenic implications for the neurometabolic disease propionic acidemia

	Ana Rivera-Barahona,Alejandro Fulgencio-Covián,Celia Pérez-Cerdá,Ricardo Ramos,Michael A. Barry,Magdalena Ugarte,Belén Pérez,Eva Richard,Lourdes R Desviat

	Scientific Reports. 2017; 7(1)

	[Pubmed] [Google Scholar] [DOI]

250	High miR-205 expression in normal epithelium is associated with biochemical failure - an argument for epithelial crosstalk in prostate cancer?

	Yngve Nordby,Elin Richardsen,Nora Ness,Tom Donnem,Hiten R. H. Patel,Lill-Tove Busund,Roy M. Bremnes,Sigve Andersen

	Scientific Reports. 2017; 7(1)

	[Pubmed] [Google Scholar] [DOI]

251	miRNA-200c-3p is crucial in acute respiratory distress syndrome

	Qiang Liu,Jianchao Du,Xuezhong Yu,Jun Xu,Fengming Huang,Xiaoyun Li,Cong Zhang,Xiao Li,Jiahui Chang,Daozhen Shang,Yan Zhao,Mingyao Tian,Huijun Lu,Jiantao Xu,Chang Li,Huadong Zhu,Ningyi Jin,Chengyu Jiang

	Cell Discovery. 2017; 3: 17021

	[Pubmed] [Google Scholar] [DOI]

252	Epigenetics in multiple myeloma: From mechanisms to therapy

	Mohammad Alzrigat,Alba Atienza Párraga,Helena Jernberg-Wiklund

	Seminars in Cancer Biology. 2017;

	[Pubmed] [Google Scholar] [DOI]

253	MicroRNAs in the skin: role in development, homoeostasis and regeneration

	Steven Horsburgh,Nicola Fullard,Mathilde Roger,Abbie Degnan,Stephen Todryk,Stefan Przyborski,Steven O’Reilly

	Clinical Science. 2017; 131(15): 1923

	[Pubmed] [Google Scholar] [DOI]

254	Inflammation-induced miRNA-155 inhibits self-renewal of neural stem cells via suppression of CCAAT/enhancer binding protein ß (C/EBPß) expression

	Kayoko Obora,Yuta Onodera,Toshiyuki Takehara,John Frampton,Joe Hasei,Toshifumi Ozaki,Takeshi Teramura,Kanji Fukuda

	Scientific Reports. 2017; 7: 43604

	[Pubmed] [Google Scholar] [DOI]

255	MiR-138-5p targeting LIMK1 suppresses breast cancer cell proliferation and motility

	Dengfeng Li,Hongming Song,Tianqi Wu,Dan Xie,Jiashu Hu,Junyong Zhao,Lin Fang

	RSC Advances. 2017; 7(82): 52030

	[Pubmed] [Google Scholar] [DOI]

256	TGFß as a therapeutic target in cystic fibrosis

	Elizabeth L. Kramer,John P. Clancy

	Expert Opinion on Therapeutic Targets. 2017; : 1

	[Pubmed] [Google Scholar] [DOI]

257	Shields Up—Systemic Protection Provided by microRNA-21 During Sepsis?*

	Cliona Ni Cheallaigh,Frederick J. Sheedy

	Critical Care Medicine. 2017; 45(7): 1261

	[Pubmed] [Google Scholar] [DOI]

258	MicroRNA-29b Overexpression Decreases Extracellular Matrix mRNA and Protein Production in Human Corneal Endothelial Cells

	Tetsuya Toyono,Tomohiko Usui,Guadalupe Villarreal,Laura Kallay,Mario Matthaei,Lucas M. M. Vianna,Angela Y. Zhu,Masahiko Kuroda,Shiro Amano,Albert S. Jun

	Cornea. 2016; 35(11): 1466

	[Pubmed] [Google Scholar] [DOI]

259	MicroRNA-targeted therapeutics for lung cancer treatment

	Jing Xue,Jiali Yang,Meihui Luo,William C. Cho,Xiaoming Liu

	Expert Opinion on Drug Discovery. 2016; : 1

	[Pubmed] [Google Scholar] [DOI]

260	Excerpts from the 1st international NTNU symposium on current and future clinical biomarkers of cancer: innovation and implementation, June 16th and 17th 2016, Trondheim, Norway

	Ana I. Robles,Karina Standahl Olsen,Dana W.T. Tsui,Vassilis Georgoulias,Jenette Creaney,Katalin Dobra,Mogens Vyberg,Nagahiro Minato,Robert A. Anders,Anne-Lise Børresen-Dale,Jianwei Zhou,Pål Sætrom,Boye Schnack Nielsen,Michaela B. Kirschner,Hans E. Krokan,Vassiliki Papadimitrakopoulou,Ioannis Tsamardinos,Oluf D. Røe

	Journal of Translational Medicine. 2016; 14(1)

	[Pubmed] [Google Scholar] [DOI]

261	Trying to understand the genetics of atopic dermatitis

	Susanne Stemmler,Sabine Hoffjan

	Molecular and Cellular Probes. 2016; 30(6): 374

	[Pubmed] [Google Scholar] [DOI]

262	miR-15a/miR-16 induces mitochondrial dependent apoptosis in breast cancer cells by suppressing oncogene BMI1

	Nibedita Patel,Koteswara Rao Garikapati,M. Janaki Ramaiah,Kavi Kishor Polavarapu,Utpal Bhadra,Manika Pal Bhadra

	Life Sciences. 2016;

	[Pubmed] [Google Scholar] [DOI]

263	Therapeutic Resistance in Acute Myeloid Leukemia: The Role of Non-Coding RNAs

	Armin Zebisch,Stefan Hatzl,Martin Pichler,Albert Wölfler,Heinz Sill

	International Journal of Molecular Sciences. 2016; 17(12): 2080

	[Pubmed] [Google Scholar] [DOI]