Crude extracts of rat atria reduced the basal amount of aldosterone released from rat zona glomerulosa cells and partially inhibited aldosterone stimulation by adrenocorticotropic hormone and angiotensin II. The destruction of this activity by trypsin suggests that the active factor is a peptide, possibly atrial natriuretic factor. These data suggest that atrial natriuretic factor affects sodium excretion by the kidneys both directly and through the inhibition of aldosterone production.
An active form of renin was confirmed in the adrenal gland of rats. It had a molecular weight of 40,000, generated angiotensin I (AI) from natural renin substrate at pH 7.4, and was found at concentrations 30 to 60 times higher than plasma renin in rats on a normal diet. Changes in sodium diet induced changes in adrenal capsular renin concentration (high Na 2.21 +/- 0.34, normal Na 4.34 +/- 0.53, low Na 13.19 +/- 1.67 ng AI/mg protein/hr). A high potassium diet also increased adrenal capsular renin from 5.27 +/- 0.53 to 39.78 +/- 5.68 ng AI/mg protein/hr, while plasma renin concentration decreased from 7.28 +/- 0.63 in the normal diet to 5.05 +/- 0.60 on the high potassium diet. Neither diet altered the concentration of renin in the fasciculata-medullary portion of the adrenal gland. Nephrectomy markedly increased the renin concentration in the adrenal capsules without any effect on the decapsular cells (20 hours after nephrectomy, 71.5 +/- 10.6 ng AI/mg protein/hr). Sodium loading or dexamethasone treatment prior to nephrectomy blunted the rise in adrenal renin (nephrectomy + dexamethasone = 27.64 +/- 4.33 ng AI/mg protein/hr; nephrectomy + NaCl = 38.70 +/- 5.82 ng AI/mg protein/hr). In all experiments, there was a positive correlation between adrenal renin and adrenal aldosterone concentrations, but the experiments did not rule out the possibility that this positive correlation was due to two independent variables changing in the same direction and not causally related. In conclusion, adrenal renin may be a local hormone, involved in the regulation of aldosterone production.
SUMMARY Supine plasma concentration of norepinephrine (PNE), epinephrine (PE), and aldosterone (PA), plasma renin activity (PRA), and blood volume (BV) were measured in 25 normotensive and 11 hypertensive patients with biopsy-proven glomerulonephritis who had serum creatinine concentrations of less than 1.6 mg/dl, and in 20 normotensive control subjects. PNE and PE were measured according to the trihydroxyindol method using high pressure liquid chromatography. Renal clearances of p-aminohippurate (C PAH ) and endogenous creatinine (Ccr) were also determined. Age, BV, and 24-hour urinary excretion of sodium were not significantly different in the three groups. Although all the measured variables were comparable between the control subjects and the normotensive nephritic patients, blood pressure, PNE, PE, PRA, and PA were significantly higher and C PAH and Ccr were significantly lower in the hypertensive nephritic patients than in the normotensive nephritic patients or the control subjects. In the pooled nephritic patients, mean blood pressure was significant-
We have confirmed the presence of adrenal renin and have shown that the concentration is much higher in the glomerulosa cells. The renin concentration of these cells is influenced by changes in sodium balance and after nephrectomy, while the renin of the fasciculata-medullary tissue is not. There is a positive correlation between adrenal renin and aldosterone concentration. The data suggest that adrenal renin may be a local hormone that plays a role in the regulation of aldosterone production.
This study examines the effects of the synthetic atrial peptides (atriopeptin I, II, and III) on aldosterone and corticosterone production by rat adrenal cell suspensions. Furthermore, we studied the effect of atriopeptin II infusion on the plasma aldosterone response to angiotensin II in the rat in vivo. Atriopeptin I, II, and III decreased aldosterone release from zona glomerulosa cells in a dose-dependent fashion. 10 pM atriopeptin II inhibited basal aldosterone release significantly (P < 0.01), and 10 nM atriopeptin II or III lowered it by 79%. Atriopeptin II decreased the sensitivity of the glomerulosa cells to adrenocorticotropic hormone (ACTH) and angiotensin II. Atriopeptin II had no effect on basal or ACTH-stimulated corticosterone release by fasciculata-medullary cells.In vivo infusions of angiotensin II with or without simultaneous infusions of atriopeptin II showed that atriopeptin II significantly inhibited the aldosterone response to angiotensin II. This inhibition by atriopeptin II was independent of any effect on plasma renin activity, serum potassium, or ACITH.These data raise the possibility that the atrial natriuretic peptides may affect sodium excretion by the kidney, not only directly, but also indirectly through the inhibition of aldosterone production.
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