Role of the renin-angiotensin-aldosterone system in the enhancement of salt sensitivity caused by prenatal protein restriction in stroke-prone spontaneously hypertensive rats. Otani, L; Sugimoto, N; Kaji, M; Murai, M; Chang, SJ; Kato, H; Murakami, T The Journal of nutritional biochemistry
23
892-9
2011
Zobrazit abstrakt
We previously demonstrated that maternal protein restriction during pregnancy enhanced salt sensitivity and shortened life span in stroke-prone spontaneously hypertensive rats (SHRSP). The present study was conducted to investigate the participation of the renin-angiotensin-aldosterone system in the development of salt sensitivity in the offspring of dams fed a low-protein diet during pregnancy. We used SHRSP offspring from dams fed a 20% casein diet (CN) or a 9% casein diet (LP) during pregnancy. The CN and LP SHRSP offspring were further subdivided into tap-water-drinking and 1%-saline-drinking groups from the postnatal 10th week. A remarkable elevation in blood pressure in response to salt loading was observed in the LP SHRSP offspring. The protein levels of CYP11B2, an enzyme for aldosterone synthesis, were markedly elevated in response to salt loading in the kidneys of LP offspring. Treatment of the LP offspring with an aldosterone receptor antagonist prevented the blood pressure from elevating and lengthened the average life span in LP offspring in response to the drinking of 1% saline. No difference in the activity of angiotensin-converting enzyme or in the protein level of the angiotensin type 1 receptor was found between the CN and LP offspring in either the tap-water-drinking or saline-drinking conditions. In conclusion, the increment of aldosterone production in response to high-salt loading may contribute to the elevated salt sensitivity of the offspring of protein-restricted dams. | Immunohistochemistry | Mouse | 21937213
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Mineralocorticoid receptor antagonist spironolactone prevents pig serum-induced hepatic fibrosis in rats. Fujisawa, G; Muto, S; Okada, K; Kusano, E; Ishibashi, S Translational research : the journal of laboratory and clinical medicine
148
149-56
2005
Zobrazit abstrakt
Mineralocorticoid receptor (MR) antagonist spironolactone (SPL) is an effective agent for prevention of cardiovascular injury. However, whether and how SPL ameliorates hepatic fibrosis in rats is unknown. Pig serum (PS) (0.5 mL, twice a week, ip) or vehicle-administered rats for 12 weeks were used as rats with hepatic fibrosis or control rats, respectively. Rats given PS were treated with SPL (50 mg/kg/day, sc) for 12 weeks. Hepatic fibrosis, using picro-sirius red staining and determination of hydroxyproline content, immunohistochemistries of alpha-smooth muscle actin (alpha-SMA)-positive hepatic stellate cells (HSCs), Na/H exchange isoform-1 (NHE-1) protein, CYP11B2 aldosterone synthase protein for liver tissues, and plasma aldosterone concentrations were compared among the 3 groups of rats. Rats given PS alone exhibited hepatic fibrosis as well as increases in the number of the alpha-SMA-positive HSCs and NHE-1 protein expression in HSCs and hepatocytes, all of which were suppressed by SPL. Rats given PS alone revealed increased CYP11B2 protein expression in HSCs and hepatocytes, which was not inhibited by SPL. Plasma aldosterone concentrations were significantly greater in rats given PS and SPL than in control rats and rats given PS alone, although they were not different between control rats and rats given PS alone. PS-induced hepatic fibrosis together with HSC activation and NHE-1 protein expression occurs via MRs, and SPL ameliorates hepatic fibrosis presumably via the inhibition of HSC activation and NHE-1 protein expression in PS-induced liver injuries. The aldosterone produced in the injured liver contributes to the PS-induced hepatic fibrosis. | Immunohistochemistry | Quail | 16938653
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Local renal aldosterone system and its regulation by salt, diabetes, and angiotensin II type 1 receptor. Xue, C; Siragy, HM Hypertension
46
584-90
2004
Zobrazit abstrakt
CYP11B2 is the enzyme responsible for aldosterone synthesis mainly in the adrenal gland. In this study, we hypothesized that CYP11B2 gene, protein, and aldosterone are produced locally in kidney and regulated by low salt intake, angiotensin II type 1 (AT1) receptor and insulin-deficient diabetes hyperglycemia. We used real-time RT-PCR, immunohistochemistry staining, and microdialysis techniques to monitor changes in renal CYP11B2 mRNA and protein and aldosterone production in normal, adrenalectomized, or streptozotocin-induced insulin-deficient diabetic hyperglycemic rats. In normal kidney, CYP11B2 mRNA and protein were localized mainly in the renal cortex and upregulated by angiotensin II and low salt intake. The angiotensin II effect was reversed by AT1 receptor blocker valsartan. Immunohistochemistry staining demonstrated presence of CYP11B2 in glomeruli. Although aldosterone was absent in plasma of adrenalectomized rats, it was present in renal interstitium and tissue. Diabetes increased renal cortical and total kidney CYP11B2 mRNA and protein. Lowering blood glucose with insulin decreased total renal CYP11B2 mRNA and protein. Despite lack of significant changes in blood glucose, valsartan treatment caused significant reduction in renal CYP11B2 mRNA and protein. In presence of diabetes, there was an increase in CYP11B2 immunostaining in glomeruli and proximal tubules. This expression was abrogated with insulin or valsartan treatment. These results demonstrate the presence of all components of local renal aldosterone system. This system is physiologically active because it is regulated by angiotensin II and low salt intake. In insulin-deficient diabetes hyperglycemia rat model, glucose, insulin, and AT1 receptor modulate CYP11B2 expression in the kidney. | Immunoblotting (Western) | Mouse | 16043663
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