Male gender increases sensitivity to renal injury in response to cholesterol loading

DM Attia, R Goldschmeding, MA Attia, P Boer, HA Koomans, JA Joles

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28 Citations (Scopus)

Abstract

Males are at greater risk for renal injury than females. This may relate to nitric oxide (NO) availability, because female rats have higher renal endothelial NO synthase (NOS) levels. Previously, our laboratory found susceptibility to proteinuria induced by NOS inhibition in male compared with female rats. Dyslipidemia and hypercholesterolemia dose dependently decreased renal NOS activity and caused renal injury in female rats. We hypothesized that exposure of male rats to hypercholesterolemia would lead to more renal injury in male than in female rats due to an a priori lower renal NO system. Female and male rats were fed no, low-dose, or high-dose cholesterol for 24 wk. Cholesterol feeding dose dependently increased proteinuria in both female and male rats, but male rats developed more proteinuria at similar plasma cholesterol (P <0.001). Control males had lower renal NOS activity than control females (4.44 +/- 0.18 vs. 7.46 +/- 0.37 pmol.min(-1).mg protein(-1); P <0.05), and cholesterol feeding decreased renal NOS activity in males and in females (P <0.05). Cholesterol-fed males developed significantly more vascular, glomerular, and tubulointerstitial monocyte/macrophage influx and injury than females. Thus under baseline conditions, male rats have lower renal NOS activity than female rats. This may explain why male rats are more sensitive to renal injury by factors that decrease NO availability, such as hypercholesterolemia.

Original languageEnglish
Pages (from-to)F718-F726
Number of pages9
JournalAmerican journal of physiology-Renal physiology
Volume284
Issue number4
DOIs
Publication statusPublished - Apr-2003

Keywords

  • hypercholesterolemia
  • proteinuria
  • renal nitric oxide synthase activity
  • NITRIC-OXIDE SYNTHASE
  • DENSITY-LIPOPROTEIN CHOLESTEROL
  • SEX-HORMONES
  • ANALBUMINEMIC RATS
  • POSTMENOPAUSAL WOMEN
  • GLOMERULAR INJURY
  • KNOCKOUT MICE
  • ESTROGEN
  • GLOMERULOSCLEROSIS
  • PROTEINURIA

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