High Glucose and Advanced Glycosylation Endproducts(AGE) Modulate the P-cadherin Expression in Glomerular Epithelial Cells(GEpC)

ABSTRACT

PURPOSE: Podocytes are critical in maintaining the filtration barrier of the glomerulus and are dependent on the integrity of slit diaphragm(SD) proteins including nephrin, P-cadherin, and others. Diabetic proteinuric condition demonstrates defects in SD molecules as well as ultrastructural changes in podocytes. We examined the molecular basis for this alteration of SD molecules especially on P-cadherin as a candidate regulating the modulation of pathogenic changes in the barrier to protein filtration. METHODS: To investigate whether high glucose and AGE induce changes in SD, we cultured rat GEpC under normal(5 mM) or high glucose(30 mM) and AGE- or BSA-added conditions and measured the change of P-cadherin expression by Western blotting and RT- PCR. RESULTS: We found that administration of high glucose decreased the P-cadherin production significantly in the presence or absence of AGE by Western blotting. In RT-PCR high glucose with or without AGE also significantly decreased the expression of P-cadherin mRNA compared to those of controls. Such changes were not seen in the osmotic control. CONCLUSION: We suggest that high glucose with or without AGE suppresses the production of P-cadherin at the transcriptional level and that these changes may explain the functional changes of SD in diabetic conditions.