Abstract

Sustained hyperglycemia is associated with the development of diabetic nephropathy. The goal of this project is to distinguish the direct toxicity of hyperglycemia from indirect actions mediated through the formation of glycated proteins, alpha-dicarbonyl intermediates and Advanced Glycation End Products (AGEs) on proteins (glycooxidation products). Glucose and reactive carbonyls induce direct stress through generation of reactive intermediates and auto-oxidation. In contrast glycated proteins and AGEs induce both direct oxidative stress and indirect cellular oxidative stress mediated through specific responses. The central hypothesis to be tested is that the induction of intracellular oxidant stress represents a major final common pathway by which both direct and indirect effects of hyperglycemia induce changes leading to diabetic nephropathy. We propose: SA#1: To identify the causes of oxidative stress in the diabetic kidney in rats, focusing on histochemical markers, and mechanisms of transition from early to late nephropathy. Early renal changes caused by diabetes are typified by tubular and glomerular hypertrophy late lesions by interstitial fibrosis and glomerular sclerosis. We plan to characterize the transitional, with emphasis on the role of tubular injury in initiating irreversible renal damage. SA#2: To test the hypothesis that tubular cells in culture are more susceptible than mesangial cells to oxidative stress induced directly by hyperglycemia and indirectly by AGEs and other glycooxidation products. Because the renal tubule plays a key role in the processing and excretion of protein- associated and free AGEs, tubular cells may be uniquely susceptible to the induction of oxidative stress, as indicated by our preliminary data. SA#3: To test the validity and excretion of free AGEs, the lipid peroxidation product isoprostane, and an enzyme marker of tubular damage as predictors of the progression of diabetic nephropathy.
This aim will integrate in vitro results with human disease outcomes, by identifying predictors that can serve as surrogate markers for nephropathy in clinical trials for antioxidant therapies.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Program Projects (P01)
Project #
5P01DK057733-02
Application #
6504046
Study Section
Special Emphasis Panel (ZDK1)
Project Start
2001-09-01
Project End
2002-08-31
Budget Start
Budget End
Support Year
2
Fiscal Year
2001
Total Cost
$94,628
Indirect Cost

  Institution

Name
Case Western Reserve University
Department
Type
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106

  Publications

Alexander, Nathan S; Palczewska, Grazyna; Stremplewski, Patrycjusz et al. (2016) Image registration and averaging of low laser power two-photon fluorescence images of mouse retina. Biomed Opt Express 7:2671-91
Kern, Elizabeth F O; Erhard, Penny; Sun, Wanjie et al. (2010) Early urinary markers of diabetic kidney disease: a nested case-control study from the Diabetes Control and Complications Trial (DCCT). Am J Kidney Dis 55:824-34
Kern, Timothy S; Du, Yunpeng; Miller, Casey M et al. (2010) Overexpression of Bcl-2 in vascular endothelium inhibits the microvascular lesions of diabetic retinopathy. Am J Pathol 176:2550-8
Ozdemir, Aylin M; Hopfer, Ulrich; Rosca, Mariana V et al. (2008) Effects of advanced glycation end product modification on proximal tubule epithelial cell processing of albumin. Am J Nephrol 28:14-24
Kern, Timothy S (2007) Contributions of inflammatory processes to the development of the early stages of diabetic retinopathy. Exp Diabetes Res 2007:95103
Lu, Liang; Erhard, Penny; Salomon, Robert G et al. (2007) Serum vitamin E and oxidative protein modification in hemodialysis: a randomized clinical trial. Am J Kidney Dis 50:305-13
Kern, Timothy S; Miller, Casey M; Du, Yunpeng et al. (2007) Topical administration of nepafenac inhibits diabetes-induced retinal microvascular disease and underlying abnormalities of retinal metabolism and physiology. Diabetes 56:373-9
Staniszewska, Magdalena M; Nagaraj, Ram H (2006) Upregulation of glyoxalase I fails to normalize methylglyoxal levels: a possible mechanism for biochemical changes in diabetic mouse lenses. Mol Cell Biochem 288:29-36
Genuth, Saul; Sun, Wanjie; Cleary, Patricia et al. (2005) Glycation and carboxymethyllysine levels in skin collagen predict the risk of future 10-year progression of diabetic retinopathy and nephropathy in the diabetes control and complications trial and epidemiology of diabetes interventions and complications p Diabetes 54:3103-11
Sell, David R; Biemel, Klaus M; Reihl, Oliver et al. (2005) Glucosepane is a major protein cross-link of the senescent human extracellular matrix. Relationship with diabetes. J Biol Chem 280:12310-5

Showing the most recent 10 out of 32 publications