Despite growing evidence of sex differences in the progression of hypertension, there are no guidelines that differentiate treatment between men and women. Intrarenal renin-angiotensin system (RAS) activation and tissue injury in 2-kidney, 1-clip (2K1C) hypertensive rats have been characterized in previous studies of male but not female rats.
To evaluate possible sex differences in response to renovascular hypertension, urinary angiotensinogen (uAGT) excretion, systolic blood pressure (BP), urinary protein excretion, and renal function were assessed in female rats.Female (n=8) and male (n=6) rats underwent placement of a 0.2 mm clip on the left renal artery to simulate unilateral renal artery stenosis. BP was measured by tail-cuff plethysmography, and clearance studies were conducted in anesthetized rats to assess renal function. Urine protein concentration was determined by pyrogallol red method. uAGT was measured by ELISA as an index of intrarenal RAS activity.
Systolic BP increased from 120±1 to 176±8 mmHg, and urinary protein excretion reached 20.2±5.6 mg/day in female rats. Although uAGT excretion increased from 13.2±7.7 ng/day to 74.1±29.9 ng/day in female rats, male rats had a significantly higher uAGT excretion of 1572.6±750 ng/day. Nonclipped kidneys exhibited more uAGT excretion compared to clipped kidneys, consistent with previous findings in males. Although 2K1C female rats demonstrate significantly lower renal function than sham females, they show more preserved renal function than male rats. Female rats also demonstrate significantly lower increases in systolic BP and urinary protein excretion compared to male rats.
The data support substantial sex-dependent differences in renal responses to unilateral renal artery stenosis. The results show substantial increases in systolic BP, uAGT, and urinary protein excretion and decreased renal function after renal artery clipping in females, but the magnitude of the changes is markedly lower than in males. Nonclipped kidneys of both sexes exhibit greater uAGT excretion than clipped kidneys. Notably, females show less augmentation of the intrarenal RAS compared to male rats in renovascular hypertension.
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