Blockade of CCL2/CCR2 Signalling Ameliorates Diabetic Nephropathy in Db/db Mice

Overview

Journal Nephrol Dial Transplant

Publisher Oxford University Press

Specialties General Surgery
Nephrology

Date 2013 Jun 25

PMID 23794669

Citations 63

Authors

Su Jin Seok

Eun Soo Lee

Geun Tae Kim

Miri Hyun

Ji-Hye Lee

Sheldon Chen

Ran Choi

Hong Min Kim

Eun Young Lee

Choon Hee Chung

Affiliations

Soon will be listed here.

Abstract

Background: CCL2/C-C chemokine receptor 2 (CCR2) signalling is suggested to play a significant role in various kidney diseases including diabetic nephropathy. We investigated the renoprotective effect of a CCR2 antagonist, RS102895, on the development of diabetic nephropathy in a type 2 diabetic mouse model.

Methods: Six-week-old diabetic db/db and non-diabetic db/m mice were fed either normal chow or chow mixed with 2 mg/kg/day of RS102895 for 9 weeks. We investigated the effects of CCR2 antagonism on blood glucose, blood pressure, albuminuria and the structure and ultrastructure of the kidney.

Results: Diabetes-induced albuminuria was significantly improved after CCR2 antagonist treatment, and glucose intolerance was improved in the RS102895-treated diabetic mice. RS102895 did not affect blood pressure, body weight or kidney weight. Mesangial expansion, glomerular basement membrane thickening and increased desmin staining in the diabetic kidney were significantly improved after RS102895 treatment. The up-regulation of vascular endothelial growth factor mRNA expression and the down-regulation of nephrin mRNA expression were markedly improved in the kidneys of RS102895-treated diabetic mice. Increased renal CD68 and arginase II and urinary malondialdehyde in diabetes were effectively attenuated by RS102895 treatment.

Conclusion: Blockade of CCL2/CCR2 signalling by RS102895 ameliorates diabetic nephropathy not only by improving blood glucose levels but also by preventing CCL2/CCR2 signalling from altering renal nephrin and VEGF expressions through blocking macrophage infiltration, inflammation and oxidative stress in type 2 diabetic mice.

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