Expression profiles of podocytes exposed to high glucose reveal new insights into early diabetic glomerulopathy

Podocyte injury has been suggested to play a pivotal role in the pathogenesis of diabetic glomerulopathy. To glean insights intomolecular mechanisms underlying diabetic podocyte injury we generated temporal global gene transcript profiles of podocytes exposed to high glucose for a time interval of 1 or 2 weeks using microarrays. A number of genes were altered at both 1 and 2 weeks of glucose exposure compared to controls grown under normal glucose. These included extracellular matrix modulators, cell cycle regulators, extracellular transduction signals and membrane transport proteins. Novel genes that were altered at both one and two weeks of high glucose exposure included Neutrophil gelatinase-associated lipocalin (LCN2 or NGAL, decreased by 3.2 fold at 1 week and by 7.2 fold at 2 weeks), Endothelial lipase (EL, increased by 3.6 fold at 1 week and 3.9 fold at 2 week), and UDP-glucuronosyltransferase 8 (UGT8, increased by 3.9 fold at 1 week and 5.0 fold at 2 weeks). To further validate these results we used real-time PCR from independent podocyte cultures, immunohistochemistry in renal biopsies and immunoblotting on urine specimens from diabetic patients. A more detailed time course revealed changes in LCN2 and EL mRNA levels as early as 6 hours and in UGT8 mRNA levels at 12 hours post-high glucose exposure. EL immunohistochemistry on human tissues showed markedly increased expression in glomeruli and immunoblotting readily detected EL in a subset of urine samples from diabetic nephropathy patients. In addition to previously implicated roles of these genes in ischemic or oxidative stress, our results further support their importance in hyperglycemic podocyte stress and possibly diabetic glomerulopathy pathogenesis and diagnosis in humans.