Characteristics of sodium transport in the inner medullary collecting duct were determined in anesthetized rats before and during intravenous infusion of synthetic atrial natriuretic factor (atriopeptin II). Infusion of the factor was associated with increased sodium delivery and reduced fractional reabsorption in the duct. Increasing delivery to the same extent by KCl infusion had no effect on fractional reabsorption. The results demonstrate that atrial natriuretic factor has a specific inhibitory effect on net sodium transport in this part of the nephron. The mechanism of this inhibition may involve induction of sodium permeability and consequent backflux into the tubular lumen.
Atrial natriuretic peptide (ANP)-gene knockout mice of three genotypes (+/+, +/-, and -/-) were maintained on a low-salt diet (0.008% NaCl). They were then fed either the same low-salt diet or a high-salt diet (8% NaCl) for 1 wk. No differences were found among genotypes in daily food and water intakes or in urinary volume and electrolyte excretions. Arterial blood pressures measured in anesthetized animals at the end of the dietary regimen were significantly and similarly increased in -/- compared with +/+ mice on each diet. Renal excretion of fluid and electrolytes was measured in anesthetized mice before and after acute blood volume expansion. No genotype differences were observed before volume expansion. After volume expansion the wild-type (+/+) mice had much greater saluretic responses than either the heterozygous (+/-) or the homozygous mutant (-/-) animals on the low-salt diet but not on the high-salt diet. We conclude that ANP lowers blood pressure in the absence of detected changes in renal function; ANP is not essential for normal salt balance, even on high-salt intake; and ANP is essential for the natriuretic response to acute blood volume expansion on a low-salt but not high-salt intake.
A method is described that allows perfusion of the inner medullary collecting duct (IMCD) of the rat kidney in situ and in vivo. Fine polyethylene catheters connected to a microperfusion pump were inserted into collecting ducts via the openings at the exposed papilla tip. Perfusate contained 22Na as well as [3H]inulin. During perfusion at 30 nl/min, urine was simultaneously collected. A decrease in the Na-to-inulin concentration ratio in the urinary sample, compared with the perfusate, was taken as indicating unidirectional efflux of Na from the perfused duct system. The effects of luminal amiloride (2 X 10(-4) M) or atrial natriuretic factor (ANF, 10(-8) M) were studied. Compared with control perfusions, both agonists reduced Na efflux from the IMCD to approximately 50%, indicating luminal sites of action. Combination of amiloride and ANF at their respective concentrations had no further effect. The lack of statistically significant additivity suggests, but does not prove, that ANF, administered from the luminal side, is able to block amiloride-sensitive Na channels in the apical membrane of IMCD cells.
The distal convoluted tubule is thought to be the principal site of action of thiazide diuretics, but, to our knowledge, there are no studies of their possible effects on collecting duct transport. Microcatheterization of the inner medullary collecting duct (IMCD) was carried out in rats undergoing a modest diuresis, natriuresis, and chloriuresis from hydro-chlorothiazide (2 mg/kg/hr) and in normal controls. Delivery of fluid, sodium, and chloride to the beginning of the IMCD was increased, but not significantly, while the load remaining at the papillary tip (end) of the duct was increased markedly by hydrochlorothiazide. Chloride reabsorption in the IMCD was affected most markedly; the chloride reabsorption between the beginning and end of the duct, as a fraction of the delivered load, was reduced from 70.4 +/- 5.4% in controls to insignificant amounts with hydrochlorothiazide (8.2 +/- 11.5%, P less than 0.001). The fraction of delivered sodium reabsorbed along the collecting duct was decreased from 78.5 +/- 4.9% in controls to 37.2 +/- 12.4% (P less than 0.005) in thiazide-treated rats and fluid reabsorption was decreased from 59.4 +/- 4.0% in controls to 31.9 +/- 5.1% (P less than 0.005). Small but significant potassium secretion into the IMCD occurred with hydrochlorothiazide, probably secondary to the marked increase in potassium delivery to the duct. Increased potassium excretion could account for a maximum of 50% of chloriuresis with hydrochlorothiazide. The observation that thiazide diuretics decrease chloride, sodium, and fluid reabsorption in the medullary collecting duct, like the recently demonstrated inhibitory effect of furosemide on this nephron segment, has significant implications for the rationale for diuretic use.
A B S T R A C T To study the role of circulating natriuretic factors in the postobstructive diuresis that occurs after relief of bilateral, but not unilateral, ureteral ligation, cross-circulation was carried out between normal recipient rats and donor rats having either 24-h bilateral (BUL) or unilateral (UUL) ureteral ligation. With BUL donors, there was a rapid marked increase in sodium and water excretion in the recipient rats, sustained for 80-140 min, with a peak approximately 10 times control values. With UUL donors, no significant natriuretic response occurred. Changes in glomerular filtration rate, renal plasma flow, blood pressure, hematocrit, or circulating levels of aldosterone or Pitressin did not explain the diuresis-natriuresis produced by cross-circulation with BUL donors. Differences in the intrinsic renal damage produced by bilateral as compared to unilateral ureteral obstruction did not appear to account for this response, since UUL donors given an acute urea load and urine reinfusion caused a similar diuresisnatriuresis. Moreover, normal donor rats given a urea load also caused a diuresis-natriuresis nearly equal to that produced by BUL rats, and the relationship between increased urea excretion and sodium excretion or urine flow in the recipients was not different in the two groups. Total urine reinfusion for 3 h in donor rats produced a significant, although less marked, diuresis-natriuresis in recipient animals, with only a slight elevation of the blood urea nitrogen level, much less increase in urea excretion rate, and no significant relationship between urea excretion and sodium excretion or urine flow.The results indicate that potent natriuretic factors, which act by decreasing the tubular reabsorption of sodium and water, are present in the blood of rats with This work was previously presented in part at the annual meeting of the Canadian
The role of the medullary collecting duct in pressure natriuresis has not been established. In vivo microcatheterization was used to study the effect of an acute increase in blood pressure induced by bilateral carotid artery and vagal nerve ligation on medullary collecting duct function in anaesthetized rats. Increased fluid and electrolyte excretion during pressure natriuresis were accompanied by increased delivery of water, sodium, chloride, and potassium to the beginning of the medullary collecting duct, a change that was significantly greater than in a second series of time-control animals. These increases in delivery were within the range for which constant fractional NaCl reabsorption had been found previously. However, during increased perfusion pressure, reabsorption of both sodium and chloride in the medullary collecting duct as a fraction of delivered load were reduced from 81 +/- 4.1 to 51 +/- 9.3% (p less than 0.01) and from 65.7 +/- 6.0 to 42.7 +/- 9.1% (p less than 0.01), respectively. No significant changes in medullary collecting reabsorption were seen in the time controls. We conclude that increased perfusion pressure, in addition to increasing delivery to the medullary collecting duct, also inhibits sodium chloride reabsorption in this nephron segment.
1. Chronic reduction of salt intake can reduce the natriuretic effect of exogenously administered atrial natriuretic factor. The purpose of this study was to elucidate the intrarenal site(s) of such atrial natriuretic factor resistance. Renal clearance and collecting duct microcatheterization experiments were made before and during infusion of atrial natriuretic factor in three groups of rats: group 1 consisted of rats fed a high salt diet (8% NaCl) for 1 week before the experiment; group II were fed a low salt diet (< 0.008%); group III received the same low salt diet, but were acutely replenished with salt at the time of experiment. 2. Baseline sodium chloride excretion was 6480 +/- 810 nmol min-1 g-1 kidney weight in group 1 compared to 99 +/- 16 in group 1. Fractional reabsorptions in the medullary collecting duct were 37 +/- 6% and 95 +/- 2% of delivered load, respectively (P < 0.05). The fractions of filtered sodium remaining at the beginning of the medullary duct were 6.6 +/- 1.0% of filtered load in group 1 and 2.7 +/- 0.7% in group II (P < 0.05), indicating increased tubular reabsorption in group II, not only in the medullary duct, but also in upstream nephron segments.(ABSTRACT TRUNCATED AT 250 WORDS)
The effect of furosemide on inner medullary collecting duct chloride reabsorption has not been determined, and the blunting of furosemide action by drugs that inhibit prostaglandin synthesis, while known to occur, has not been examined in detail. The effect of indomethacin and meclofenamate on furosemide diuresis was studied in the rat using clearance and collecting duct microcatheterization methods. Furosemide-treated control animals showed complete inhibition of chloride, sodium, and water reabsorption in the inner medullary collecting duct. Rats given indomethacin or meclofenamate before and during furosemide administration showed marked reduction of the chloriuresis, natriuresis, and diuresis. Reduced delivery of sodium and chloride to the beginning of the inner medullary collecting duct, associated with a decrease in glomerular filtration rate and increased reabsorption in more proximal nephron segments, was largely responsible for the reduced natriuresis and chloriuresis during inhibition of prostaglandin synthesis. In addition, indomethacin increased collecting duct NaCl reabsorption toward normal, but meclofenamate showed no such effect. The results indicate that furosemide inhibits medullary collecting duct reabsorption of chloride, sodium, and water in the rat. The blunting of diuretic action seen with inhibition of prostaglandin synthesis is largely, although not entirely, due to effects of indomethacin and meclofenamate on furosemide action at nephron sites proximal to the collecting duct.
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