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Literature DB >> 22644874

Anti-fibrosis therapy and diabetic nephropathy.

Abstract

Diabetes mellitus is rapidly becoming a global health issue that may overtake cancer during the next two decades as it covertly affects multiple organ systems that goes undiagnosed long after the onset. A number of complications are associated with poorly controlled hyperglycemia. Diabetic nephropathy is one of the most common complications of diabetes mellitus. Other than angiotensin-converting enzyme (ACE) inhibitors and angiotensin receptor blocker (ARB) there is not much in the armamentarium with which to treat patients with overt diabetic nephropathy. Research points towards a multifactorial etiology and complex interplay of several pathogenic pathways that can contribute to the declining kidney function in diabetes. Patients with diabetic nephropathy (and with any chronic kidney disease) eventually develop kidney fibrosis. Despite the financial and labor investment spent on determining the basic mechanism of fibrosis, not much progress has been made in terms of therapeutic targets available to us today. This may be in part due to paucity in the experimental animal models available. However, there now seems to be a concerted effort from several pharmaceutical companies to develop a drug that would halt/delay the process of fibrosis, if not reverse it. This review discusses the current state of research in the field while staying within the context of diabetic nephropathy.

Entities: Disease Gene Species

Mesh：

Substances：

Year: 2012 PMID： 22644874 DOI： 10.1007/s11892-012-0290-7

Source DB: PubMed Journal: Curr Diab Rep ISSN： 1534-4827 Impact factor: 4.810

88 in total

Review 1. Macrophages and renal fibrosis.

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Journal: Semin Nephrol Date: 2010-05 Impact factor: 5.299

Review 2. Pirfenidone: in idiopathic pulmonary fibrosis.

Authors: Natalie J Carter
Journal: Drugs Date: 2011-09-10 Impact factor: 9.546

3. Add-on angiotensin II receptor blockade lowers urinary transforming growth factor-beta levels.

Authors: Rajiv Agarwal; Senthuran Siva; Stephen R Dunn; Kumar Sharma
Journal: Am J Kidney Dis Date: 2002-03 Impact factor: 8.860

4. Macrophages contribute to the development of renal fibrosis following ischaemia/reperfusion-induced acute kidney injury.

Authors: Gang Jee Ko; Chang-Su Boo; Sang-Kyung Jo; Won Yong Cho; Hyoung Kyu Kim
Journal: Nephrol Dial Transplant Date: 2007-11-05 Impact factor: 5.992

5. Involvement of transforming growth factor-beta in regulation of calcium transients in diabetic vascular smooth muscle cells.

Authors: Kumar Sharma; Leo Deelman; Muniswamy Madesh; Bernd Kurz; Emilio Ciccone; Senthuran Siva; Taishan Hu; Yanqing Zhu; Lewei Wang; Robert Henning; Xinliang Ma; Gyorgy Hajnoczky
Journal: Am J Physiol Renal Physiol Date: 2003-07-22

6. In patients with type 1 diabetes and new-onset microalbuminuria the development of advanced chronic kidney disease may not require progression to proteinuria.

Authors: Bruce A Perkins; Linda H Ficociello; Bijan Roshan; James H Warram; Andrzej S Krolewski
Journal: Kidney Int Date: 2010-01 Impact factor: 10.612

7. Sequential renal biopsies in insulin-dependent diabetic patients: structural factors associated with clinical progression.

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Journal: Kidney Int Date: 1995-12 Impact factor: 10.612

8. Effect of the HMG-CoA reductase inhibitor rosuvastatin on early chronic kidney injury in obese zucker rats fed with an atherogenic diet.

Authors: Efrain Reisin; Philip J Ebenezer; Jie Liao; Benjamin S Lee; Michelle Larroque; Xuejiao Hu; Erwin A Aguilar; Stephen A Morse; Joseph Francis
Journal: Am J Med Sci Date: 2009-10 Impact factor: 2.378

9. Is diabetic nephropathy an inherited complication?

Authors: K Borch-Johnsen; K Nørgaard; E Hommel; E R Mathiesen; J S Jensen; T Deckert; H H Parving
Journal: Kidney Int Date: 1992-04 Impact factor: 10.612

10. Effects of atorvastatin on kidney outcomes and cardiovascular disease in patients with diabetes: an analysis from the Collaborative Atorvastatin Diabetes Study (CARDS).

Authors: Helen M Colhoun; D John Betteridge; Paul N Durrington; Graham A Hitman; H Andrew W Neil; Shona J Livingstone; Valentine Charlton-Menys; David A DeMicco; John H Fuller
Journal: Am J Kidney Dis Date: 2009-06-21 Impact factor: 8.860

15 in total

1. PTEN-induced partial epithelial-mesenchymal transition drives diabetic kidney disease.

Authors: Yajuan Li; Qingsong Hu; Chunlai Li; Ke Liang; Yu Xiang; Heidi Hsiao; Tina K Nguyen; Peter K Park; Sergey D Egranov; Chandrashekar R Ambati; Nagireddy Putluri; David H Hawke; Leng Han; Mien-Chie Hung; Farhad R Danesh; Liuqing Yang; Chunru Lin
Journal: J Clin Invest Date: 2019-02-11 Impact factor: 14.808

Review 2. Diabetes and immunity to tuberculosis.

Authors: Nuria Martinez; Hardy Kornfeld
Journal: Eur J Immunol Date: 2014-02-16 Impact factor: 5.532

3. Long non-coding RNA MEG3 impacts diabetic nephropathy progression through sponging miR-145.

Authors: Junfeng Li; Xia Jiang; Lijun Duan; Wei Wang
Journal: Am J Transl Res Date: 2019-10-15 Impact factor: 4.060

Review 4. Advances in Understanding and Management of Residual Renal Function in Patients with Chronic Kidney Disease.

Authors: Xin Liu; Chunsun Dai
Journal: Kidney Dis (Basel) Date: 2016-09-07

5. Baicalin reversal of DNA hypermethylation-associated Klotho suppression ameliorates renal injury in type 1 diabetic mouse model.

Authors: Xiao-Tan Zhang; Guang Wang; Liu-Fang Ye; Yu Pu; Run-Tong Li; Jianxin Liang; Lijun Wang; Kenneth Ka Ho Lee; Xuesong Yang
Journal: Cell Cycle Date: 2020-11-16 Impact factor: 4.534