The Impact of Gender on Progression of Renal Disease: Potential Role of Estrogen-Mediated Vascular Endothelial Growth Factor Regulation and Vascular Protection

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The Impact of Gender on Progression of Renal Disease

Potential Role of Estrogen-Mediated Vascular Endothelial Growth Factor Regulation and Vascular Protection

Duk-Hee Kang^*, Eun Sun Yu^*, Kyun-Il Yoon^* and Richard Johnson

From the Division of Nephrology,^* Ewha Women’s University College of Medicine, Ewha Medical Research Center, Seoul, Korea; and the Division of Nephrology, Baylor College of Medicine, Houston, Texas

Male gender is associated with a more rapid progression of renaldisease independent of blood pressure, dietary protein intake,or serum lipid levels. Recently, we reported a key role forthe intrarenal vasculature in progressive renal disease (KangD-H, Kanellis J, Hugo C, Truong L, Anderson S, Kerjaschki D,Schreiner GF, Johnson RJ: Role of endothelium in progressiverenal disease. J Am Soc Nephrol 2002, 13:806–816). Wehypothesized that estrogen-mediated preservation of the renalvasculature could account for the better renal outcome in femalerats. We analyzed micro- and macrovascular changes in the 5/6remnant kidney (RK) models both in male (n = 24) and female(n = 24) Sprague-Dawley rats up to 12 weeks after renal massreduction. At 12 weeks, male and female RK rats had equivalentblood pressure, glomerular tuft area, and RK/body weight, butmale rats showed worse renal function, proteinuria, glomerulosclerosis(%), and tubulointerstitial fibrosis. At 12 weeks peritubularcapillary (PTC) EC proliferation and PTC density were higherin female RK rats whereas macrovascular changes in preglomerularvessels (smooth muscle cell proliferation, medial wall thickening,and adventitial fibrosis) were less prominent. The expressionof vascular endothelial growth factor (VEGF) and VEGF type 2receptor (flk-1) in renal cortex assessed by immunostainingwere higher in female RK rats. To dissect the mechanism of sexhormone-induced vascular remodeling and VEGF regulation, weinvestigated the in vitro effect of 17ß-estradiol(17ßE, 10 nmol/L) on proliferation and VEGF expressionof renal tubular cells (rat proximal tubular cells), vascularsmooth muscle cells (VSMCs), and human umbilical vein endothelialcells (HUVECs). 17ßE directly stimulated the proliferationof HUVECs, whereas it inhibited serum-induced proliferationof VSMCs. 17ßE stimulated VEGF mRNA expression bothin renal tubular cells and VSMCs. However, when cells were pretreatedwith a nitric oxide donor to simulate the in vivo condition,17ßE inhibited VEGF mRNA expression and protein releasein VSMCs. In conclusion, female RK rats developed less glomerulosclerosisand renal failure compared to male RK rats in association withgreater preservation of PTC and less preglomerular arteriopathy.Estrogen stimulated basal VEGF expression in renal tubular cells.We propose that estrogen may protect female rats in progressiverenal disease by stimulating VEGF expression and maintaininga healthy intrarenal vasculature.

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