Abstract

Acetazolamide, furosemide, chlorothiazide, and amiloride are pharmacologic agents that act primarily in the proximal tubule, loop of Henle, early distal tubule and late distal tubule and collecting duct, respectively. In order to investigate the renal pathophysiology induced by amphotericin B, these diuretic agents were used as probes of discrete segments of the nephron in the neonatal rat. Six-day-old rats were treated with amphotericin B (20 mg/kg, sc) or the vehicle. Twenty-four hours later, when evidence of amphotericin B-induced renal pathophysiology is detectable, the responses to the diuretic agents were assessed in a 2-hr clearance test, during which creatinine clearance (CCr) and the fractional excretion (FE) of water and various components of the filtrate were determined. Amphotericin B induced alterations in basal function including azotemia, hypostenuria, increases FE water and electrolytes, and a decreased FE urea (although CCr was normal). The diuretic responses to furosemide, chlorothiazide, and amiloride were not altered, indicating that the functional viability of the respective tubular segments was not affected by amphotericin B treatment. Although the maximal response to acetazolamide also remained unchanged in amphotericin B-treated pups, there was an attenuation in the half-maximal response, reflecting an apparent shift in the sensitivity to acetazolamide. All of the diuretic agents elicited an increase in urea excretion in amphotericin B-treated pups such that FE urea approached control values. Additionally, the magnitude of this increase was proportional to the magnitude of the increase in water excretion induced by each diuretic agent. These results indicate a disruption of urea recycling in the nephron and support the hypothesis that amphotericin B acts to increase the permeability of the distal tubule to urea. Thus, results from this study demonstrate the usefulness of pharmacologic agents as functional probes in the characterization of specific components of renal pathophysiology.

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