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    Article Cited by others


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

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Cell Death & Differentiation. 2018;
[Pubmed]  [Google Scholar] [DOI]
2 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]
3 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]
4 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]
5 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]
6 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]
7 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]
8 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]
9 Small non coding RNAs in adipocyte biology and obesity
Ez-Zoubir Amri,Marcel Scheideler
Molecular and Cellular Endocrinology. 2017;
[Pubmed]  [Google Scholar] [DOI]
10 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]
11 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]
12 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]
13 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]
14 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]
15 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]
16 New Dancing Couple: PD-L1 and MicroRNA
A. Grenda,P. Krawczyk
Scandinavian Journal of Immunology. 2017; 86(3): 130
[Pubmed]  [Google Scholar] [DOI]
17 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]
18 Role of microRNAs in obesity and obesity-related diseases
Giuseppe Iacomino,Alfonso Siani
Genes & Nutrition. 2017; 12(1)
[Pubmed]  [Google Scholar] [DOI]
19 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]
20 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]
21 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]
22 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]
23 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]
24 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]
25 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]
26 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]
27 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]
28 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]
29 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]
30 MicroRNAs in injury and repair
Cory V. Gerlach,Vishal S. Vaidya
Archives of Toxicology. 2017;
[Pubmed]  [Google Scholar] [DOI]
31 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]
32 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]
33 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]
34 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]
35 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]
36 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]
37 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]
38 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]
39 Trying to understand the genetics of atopic dermatitis
Susanne Stemmler,Sabine Hoffjan
Molecular and Cellular Probes. 2016; 30(6): 374
[Pubmed]  [Google Scholar] [DOI]
40 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]
41 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]
42 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]
43 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]


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