1. The effect of cyclo(D-Trp-D-Asp-Pro-D-Val-Leu) (or BQ123), a selective ETA receptor antagonist, on the vasoconstrictor and diuretic responses elicited by endothelin-1 (ET-1) was examined in conscious sheep with chronic indwelling renal arterial cannulae. 2. Using low dose close renal arterial infusion, ET-1 has potent effects on the kidney causing a marked decrease in effective renal plasma flow and an increase in urine output and free water clearance in the normally hydrated animal. 3. The vasoconstrictor response to renal arterial infusion of ET-1 at 5 micrograms/h was blunted by renal arterial infusion of the ETA receptor selective antagonist, BQ123 (400 micrograms/h). 4. In contrast, the effect of ET-1 on urine production and free water clearance was not affected by this dose of BQ123. 5. The differential effect of BQ123 on renal blood flow and urine production suggests that these effects of endothelin on the kidney are mediated through different receptor mechanisms.
1. The effect of renal arterial infusion of synthetic human atrial natriuretic factor (ANF (99-126] on renal function in the conscious euvolaemic sheep was characterized. ANF (99-126) was infused for 2 h at 5 and 50 micrograms/h into the renal artery of crossbred Merino ewes with chronically indwelling cannulae inserted in the renal artery. The effect on absolute and fractional excretion of Na, K, Ca, Cl and HCO3, glomerular filtration rate (GFR), effective renal plasma flow (ERPF) and free water clearance (CH2O) were measured. 2. Infusion at 50 micrograms/h produced a fourfold increase in Na and Cl excretion. Ca excretion increased eightfold, while K and HCO3 increased by small amounts. At the lower dose only Na, Cl and Ca excretion increased significantly. The changes in absolute excretion of each ion were closely mirrored by changes in fractional excretion. CH2O became more negative at both levels of infusion. Small changes in GFR were measured at both rates of infusion. No changes in ERPF or renin secretion were observed. 3. ANF (99-126) infusion at 50 micrograms/h for 1 h increased the excretion of Li, such that more than 70% of the change in Na excretion was associated with the changes in Li clearance. Changes in GFR accounted for less than 10% of change in Na excretion. 4. Following either long-term (50 micrograms/h for 6 h) or repeated short-term (20 micrograms/h for 30 min) infusions of ANF (99-126), the response of Na excretion was not sustained. The mechanisms of the tachyphylaxis remains undetermined. 5. ANF (99-126) is a powerful stimulus to the absolute and fractional excretion of Na, K, Ca, Cl and HCO3. The mechanism of action is not known, but appears to be related to changes in tubular function and/or a change in glomerulotubular balance.
Indirect evidence has suggested that the kidney is a major organ of clearance for osteocalcin, a circulating marker of osteoblast function. The objectives of the present study were (1) to confirm the role of the kidney in osteocalcin clearance (2) to quantify the contribution of extrarenal sites and (3) to investigate the renal mechanism(s) of osteocalcin clearance. Plasma osteocalcin levels, osteocalcin plasma clearance rate (PCR) and plasma production rate (PPR) were determined in oophorectomized (OX) and uninephrectomized oophorectomized (UOX) sheep. The osteocalcin renal extraction efficiency (REE) and the effective renal plasma flow (ERPF) were measured, and the osteocalcin renal clearance rate (RCR) was calculated. The osteocalcin PCR was reduced significantly in UOX compared with OX sheep (2.0 +/- 0.1 (n = 9) vs 2.5 +/- 0.1 litres/h (n = 44); P less than 0.0005). In UOX sheep with plasma creatinine levels less than or equal to 130 mumol/l, the osteocalcin REE was 9 +/- 1.3% and the osteocalcin RCR was 50-91% of osteocalcin PCR (n = 4). In UOX sheep with plasma creatinine levels in the range 100-440 mumol/l, there was a linear relationship between osteocalcin PCR and ERPF; the osteocalcin RCR was related to the osteocalcin PCR (RCR = 0.9 x PCR - 0.50). Intravenous infusion of the synthetic glucocorticoid triamcinolone acetonide (TA) in UOX sheep led to marked decrements in plasma osteocalcin levels and the osteocalcin PPR, and a significant increase in the osteocalcin PCR. These changes were accompanied by a 44% increase in ERPF.(ABSTRACT TRUNCATED AT 250 WORDS)
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