Literature DB >> 22223877

Inhibiting microRNA-192 ameliorates renal fibrosis in diabetic nephropathy.

Sumanth Putta1, Linda Lanting, Guangdong Sun, Gregory Lawson, Mitsuo Kato, Rama Natarajan.   

Abstract

TGF-β1 upregulates microRNA-192 (miR-192) in cultured glomerular mesangial cells and in glomeruli from diabetic mice. miR-192 not only increases collagen expression by targeting the E-box repressors Zeb1/2 but also modulates other renal miRNAs, suggesting that it may be a therapeutic target for diabetic nephropathy. We evaluated the efficacy of a locked nucleic acid (LNA)-modified inhibitor of miR-192, designated LNA-anti-miR-192, in mouse models of diabetic nephropathy. LNA-anti-miR-192 significantly reduced levels of miR-192, but not miR-194, in kidneys of both normal and streptozotocin-induced diabetic mice. In the kidneys of diabetic mice, inhibition of miR-192 significantly increased Zeb1/2 and decreased gene expression of collagen, TGF-β, and fibronectin; immunostaining confirmed the downregulation of these mediators of renal fibrosis. Furthermore, LNA-anti-miR-192 attenuated proteinuria in these diabetic mice. In summary, the specific reduction of renal miR-192 decreases renal fibrosis and improves proteinuria, lending support for the possibility of an anti-miRNA-based translational approach to the treatment of diabetic nephropathy.

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Year:  2012        PMID: 22223877      PMCID: PMC3294315          DOI: 10.1681/ASN.2011050485

Source DB:  PubMed          Journal:  J Am Soc Nephrol        ISSN: 1046-6673            Impact factor:   10.121


  48 in total

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

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Journal:  Nat Rev Mol Cell Biol       Date:  2010-03-10       Impact factor: 94.444

4.  Expression of transforming growth factor beta is elevated in human and experimental diabetic nephropathy.

Authors:  T Yamamoto; T Nakamura; N A Noble; E Ruoslahti; W A Border
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5.  E-cadherin expression is regulated by miR-192/215 by a mechanism that is independent of the profibrotic effects of transforming growth factor-beta.

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6.  Diabetic nephropathy is accelerated by farnesoid X receptor deficiency and inhibited by farnesoid X receptor activation in a type 1 diabetes model.

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Journal:  Diabetes       Date:  2010-08-10       Impact factor: 9.461

Review 7.  The extracellular matrix in diabetic nephropathy.

Authors:  F N Ziyadeh
Journal:  Am J Kidney Dis       Date:  1993-11       Impact factor: 8.860

8.  In vivo tumor growth inhibition and biodistribution studies of locked nucleic acid (LNA) antisense oligonucleotides.

Authors:  Kees Fluiter; Anneloor L M A ten Asbroek; Marit B de Wissel; Marja E Jakobs; Margit Wissenbach; Håkan Olsson; Otto Olsen; Henrik Oerum; Frank Baas
Journal:  Nucleic Acids Res       Date:  2003-02-01       Impact factor: 16.971

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10.  MicroRNA 144 impairs insulin signaling by inhibiting the expression of insulin receptor substrate 1 in type 2 diabetes mellitus.

Authors:  Dwi Setyowati Karolina; Arunmozhiarasi Armugam; Subramaniam Tavintharan; Michael T K Wong; Su Chi Lim; Chee Fang Sum; Kandiah Jeyaseelan
Journal:  PLoS One       Date:  2011-08-01       Impact factor: 3.240
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  151 in total

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Journal:  Am J Transl Res       Date:  2014-10-11       Impact factor: 4.060

Review 2.  Anti-fibrosis therapy and diabetic nephropathy.

Authors:  Anil Karihaloo
Journal:  Curr Diab Rep       Date:  2012-08       Impact factor: 4.810

3.  Differential microRNA expression in the serum of patients with nephrotic syndrome and clinical correlation analysis.

Authors:  Jian Teng; Fang Sun; Peng-Fei Yu; Ji-Xia Li; Dong Yuan; Jing Chang; Shu-Hua Lin
Journal:  Int J Clin Exp Pathol       Date:  2015-06-01

Review 4.  MicroRNAs in diabetic nephropathy: functions, biomarkers, and therapeutic targets.

Authors:  Mitsuo Kato; Rama Natarajan
Journal:  Ann N Y Acad Sci       Date:  2015-04-15       Impact factor: 5.691

5.  Systemic inhibition of miR-451 increases fibrotic signaling and diminishes autophagic response to exacerbate renal damage in Tallyho/Jng mice.

Authors:  Maurice B Fluitt; Narayan Shivapurkar; Manju Kumari; Sarojini Singh; Lijun Li; Swasti Tiwari; Carolyn M Ecelbarger
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Review 6.  Modulation of immune responses following solid organ transplantation by microRNA.

Authors:  Nayan J Sarma; Venkataswarup Tiriveedhi; Sabarinathan Ramachandran; Jeffrey Crippin; William Chapman; T Mohanakumar
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Review 7.  Early detection of diabetic kidney disease: Present limitations and future perspectives.

Authors:  Chih-Hung Lin; Yi-Cheng Chang; Lee-Ming Chuang
Journal:  World J Diabetes       Date:  2016-07-25

Review 8.  Therapeutic approaches to diabetic nephropathy--beyond the RAS.

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Journal:  Nat Rev Nephrol       Date:  2014-05-06       Impact factor: 28.314

9.  Dicer deficiency in proximal tubules exacerbates renal injury and tubulointerstitial fibrosis and upregulates Smad2/3.

Authors:  Zhengwei Ma; Qingqing Wei; Ming Zhang; Jian-Kang Chen; Zheng Dong
Journal:  Am J Physiol Renal Physiol       Date:  2018-10-03

10.  Epigenetic Histone Modifications Involved in Profibrotic Gene Regulation by 12/15-Lipoxygenase and Its Oxidized Lipid Products in Diabetic Nephropathy.

Authors:  Hang Yuan; Marpadga A Reddy; Supriya Deshpande; Ye Jia; Jung Tak Park; Linda L Lanting; Wen Jin; Mitsuo Kato; Zhong Gao Xu; Sadhan Das; Rama Natarajan
Journal:  Antioxid Redox Signal       Date:  2015-11-30       Impact factor: 8.401
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