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Literature DB >> 22552970

MicroRNAs and diabetic complications.

Rama Natarajan¹, Sumanth Putta, Mitsuo Kato.

Abstract

Both Type 1 and Type 2 diabetes can lead to debilitating microvascular complications such as retinopathy, nephropathy and neuropathy, as well as macrovascular complications such as cardiovascular diseases including atherosclerosis and hypertension. Diabetic complications have been attributed to several contributing factors such as hyperglycemia, hyperlipidemia, advanced glycation end products, growth factors, and inflammatory cytokines/chemokines. However, current therapies are not fully efficacious and hence there is an imperative need for a better understanding of the molecular mechanisms underlying diabetic complications in order to identify newer therapeutic targets. microRNAs (miRNAs) are short non-coding RNAs that repress target gene expression via post-transcriptional mechanisms. Emerging evidence shows that they have diverse cellular and biological functions and play key roles in several diseases. In this review, we explore the role of miRNAs in the pathology of diabetic complications and also discuss the potential use of miRNAs as novel diagnostic and therapeutic targets for diabetic complications.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Substances：
Genetic Markers
MicroRNAs

Year: 2012 PMID： 22552970 PMCID： PMC3396726 DOI： 10.1007/s12265-012-9368-5

Source DB: PubMed Journal: J Cardiovasc Transl Res ISSN： 1937-5387 Impact factor: 4.132

89 in total

Review 1. MicroRNAs: small RNAs with a big role in gene regulation.

Authors: Lin He; Gregory J Hannon
Journal: Nat Rev Genet Date: 2004-07 Impact factor: 53.242

2. microRNA cascade in diabetic kidney disease: Big impact initiated by a small RNA.

Authors: Mitsuo Kato; Rama Natarajan
Journal: Cell Cycle Date: 2009-11-15 Impact factor: 4.534

Review 3. miRNAs as molecular biomarkers of cancer.

Authors: Muller Fabbri
Journal: Expert Rev Mol Diagn Date: 2010-05 Impact factor: 5.225

Review 4. Epigenetics: mechanisms and implications for diabetic complications.

Authors: Mark E Cooper; Assam El-Osta
Journal: Circ Res Date: 2010-12-10 Impact factor: 17.367

5. Intravenous gene therapy with PIM-1 via a cardiotropic viral vector halts the progression of diabetic cardiomyopathy through promotion of prosurvival signaling.

Authors: Rajesh Katare; Andrea Caporali; Lorena Zentilin; Elisa Avolio; Graciela Sala-Newby; Atsuhiko Oikawa; Daniela Cesselli; Antonio Paolo Beltrami; Mauro Giacca; Costanza Emanueli; Paolo Madeddu
Journal: Circ Res Date: 2011-04-07 Impact factor: 17.367

Review 6. Pervasive roles of microRNAs in cardiovascular biology.

Authors: Eric M Small; Eric N Olson
Journal: Nature Date: 2011-01-20 Impact factor: 49.962

7. The prevalence of diabetic retinopathy among adults in the United States.

Authors: John H Kempen; Benita J O'Colmain; M Cristina Leske; Steven M Haffner; Ronald Klein; Scot E Moss; Hugh R Taylor; Richard F Hamman
Journal: Arch Ophthalmol Date: 2004-04

8. E-cadherin expression is regulated by miR-192/215 by a mechanism that is independent of the profibrotic effects of transforming growth factor-beta.

Authors: Bo Wang; Michal Herman-Edelstein; Philip Koh; Wendy Burns; Karin Jandeleit-Dahm; Anna Watson; Moin Saleem; Gregory J Goodall; Stephen M Twigg; Mark E Cooper; Phillip Kantharidis
Journal: Diabetes Date: 2010-04-14 Impact factor: 9.461

Review 9. Lipid inflammatory mediators in diabetic vascular disease.

Authors: Rama Natarajan; Jerry L Nadler
Journal: Arterioscler Thromb Vasc Biol Date: 2004-05-27 Impact factor: 8.311

10. MicroRNA-200b regulates vascular endothelial growth factor-mediated alterations in diabetic retinopathy.

Authors: Kara McArthur; Biao Feng; Yuexiu Wu; Shali Chen; Subrata Chakrabarti
Journal: Diabetes Date: 2011-02-28 Impact factor: 9.461

41 in total

1. miR-146a mediates thymosin β4 induced neurovascular remodeling of diabetic peripheral neuropathy in type-II diabetic mice.

Authors: Lei Wang; Michael Chopp; XueRong Lu; Alexandra Szalad; LongFei Jia; Xian Shuang Liu; Kuan-Han Wu; Mei Lu; Zheng Gang Zhang
Journal: Brain Res Date: 2018-11-27 Impact factor: 3.252

Review 2. Epigenetics of progression of chronic kidney disease: fact or fantasy?

Authors: Maria R Wing; Ali Ramezani; Harindarpal S Gill; Joseph M Devaney; Dominic S Raj
Journal: Semin Nephrol Date: 2013-07 Impact factor: 5.299

3. Clinical significance and expression of microRNA in diabetic patients with erectile dysfunction.

Authors: X I Jiang; Yong Luo; Shuli Zhao; Qichao Chen; Chao Jiang; Yutian Dai; Yun Chen; Zhigang Cao
Journal: Exp Ther Med Date: 2015-04-22 Impact factor: 2.447

4. Identification of microRNA biomarkers in type 2 diabetes: a meta-analysis of controlled profiling studies.

Authors: Hongmei Zhu; Siu Wai Leung
Journal: Diabetologia Date: 2015-02-13 Impact factor: 10.122

Review 5. Emerging roles for miRNAs in the development, diagnosis, and treatment of diabetic nephropathy.

Authors: Johanna K DiStefano; Matthew Taila; M Lucrecia Alvarez
Journal: Curr Diab Rep Date: 2013-08 Impact factor: 4.810

6. MicroRNA 375 mediates palmitate-induced enteric neuronal damage and high-fat diet-induced delayed intestinal transit in mice.

Authors: Behtash Ghazi Nezami; Simon M Mwangi; Jai Eun Lee; Sabrina Jeppsson; Mallappa Anitha; Shadi S Yarandi; Alton B Farris; Shanthi Srinivasan
Journal: Gastroenterology Date: 2013-10-25 Impact factor: 22.682

7. miRNA-30e regulates abnormal differentiation of small intestinal epithelial cells in diabetic mice by downregulating Dll4 expression.

Authors: Ti-Dong Shan; Hui Ouyang; Tao Yu; Jie-Yao Li; Can-Ze Huang; Hong-Sheng Yang; Wa Zhong; Zhong-Sheng Xia; Qi-Kui Chen
Journal: Cell Prolif Date: 2016-01-19 Impact factor: 6.831