Effect of dietary chloride on aldosterone synthase induction and angiotensin II receptors in rat adrenals

This study aimed to investigate the role of endogenous angiotensin II (ANGII) in the upregulation of ANG-II AT1 receptors in adrenal glands during a low-salt intake. To this end male Sprague-Dawley rats were fed a low-salt diet (0.2 mg/g) for 10 days and were treated with the ANGII-AT1 receptor antagonist losartan (40 mg/kg per day) for 2 days, and adrenal mRNA levels for ANGII AT1A and AT1B receptors were determined by RNase protection. The low-salt diet increased AT1A and AT1B receptor mRNA levels by 90% and 220%, respectively. Losartan treatment did not change the basal AT1A mRNA level, but decreased AT1B mRNA by 50%. Treatment of rats on a low-salt diet with losartan did not change the increase of AT1A mRNA but significantly attenuated the increase of AT1B mRNA to 90% of the control value. Stimulation of endogenous ANGII levels by unilateral renal artery clipping for 2 days lowered AT1A mRNA by 25% and increased AT1B mRNA by 30%. Additional treatment with losartan did not affect the decreased AT1A mRNA levels in rats with a unilateral renal artery clip, but significantly attenuated the increase of AT1B mRNA. These findings suggest that sodium deficiency stimulates adrenal AT1A and AT1B receptor mRNA levels primarily via an ANGII-AT1-independent mechanism. The preferential increase of adrenal AT1B mRNA during a low-salt intake could be explained by the elevation of endogenous ANGII levels during sodium deficiency, suggesting that endogenous ANGII acts as an enhancer for adrenal AT1B but not for AT1A receptor gene expression via ANGII-AT1 receptors.

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Positive feedback regulation of angiotensin II-AT 1B receptor gene expression in rat adrenal glands

Wagner

Kurtz²

1998

Pfl�gers Archiv European Journal of Physiology

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Genetic deficiency of angiotensinogen produces an impaired urine concentrating ability in mice

Kihara¹,

Umemura²,

Sumida³

et al. 1998

Kidney International

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Angiotensinogen gene-knockout (Atg-/-) mice lacking angiotensin II exhibit chronic hypotension. The present study was designed to investigate pathophysiology of Atg-/- mice from the renal functional view. Wild-type (Atg+/+) and Atg-/- mice at 10 weeks of age were housed in metabolic cages for 24-hour urine collection. When provided free access to water, Atg-/- mice showed an increased urine output and a decreased urine osmolality compared with Atg+/+ mice. Urinary excretion and plasma levels of vasopressin were significantly higher in mutant mice than in wild-type mice. On the other hand, urinary excretion of aldosterone in mutant mice was suppressed to the levels under the detection limit of the assay system. The mean plasma aldosterone level of Atg-/- mice was suppressed to 30% of that of Atg+/+ mice. Plasma levels of creatinine, endogenous creatinine clearance, and urinary electrolyte excretion were not different between these mice. In Atg+/+ mice, urine osmolality was markedly increased from 1929 +/- 21 to 3314 +/- 402 mOsm/kg during water deprivation, whereas this parameter in Atg-/- mice did not change significantly (from 1413 +/- 121 to 1590 +/- 92 mOsm/kg). Urinary vasopressin excretion increased during water deprivation from 0.24 +/- 0.04 and 0.70 +/- 0.08 to 0.42 +/- 0.06 and 2.31 +/- 0.35 ng/mg creatinine in wild-type and mutant mice, respectively. Histologic study revealed interstitial inflammation, and atrophic changes in the tubules and papilla in Atg-/- mice. In conclusion, a genetic deficiency of angiotensinogen produced an impaired urine concentrating ability and tubulointerstitial lesions, indicating the critical role of angiotensinogen in developing normal tubular function and construction.

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Effect of dietary chloride on aldosterone synthase induction and angiotensin II receptors in rat adrenals

Cited by 2 publications

References 48 publications

Positive feedback regulation of angiotensin II-AT 1B receptor gene expression in rat adrenal glands

Positive feedback regulation of angiotensin II-AT 1B receptor gene expression in rat adrenal glands

Genetic deficiency of angiotensinogen produces an impaired urine concentrating ability in mice

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