Chloroanilines are widely used chemical intermediates for the manufacture of dyes, agricultural chemicals and industrial compounds. Nephrotoxicity occurs as one toxicity following intraperitoneal (i.p.) administration of chloroaniline hydrochlorides to rats. The purpose of this study was to examine the effect of chemical form, route of administration and vehicle on 3,5-dichloroaniline-induced nephrotoxicity. In one set of studies, male Fischer 344 rats (four to eight per group) were administered a single i.p. injection of 3,5-dichloroaniline free base or hydrochloride salt, cysteine hydrochloride or ornithine hydrochloride (0.8, 1.0 or 1.5 mmol kg-1) or an appropriate vehicle and renal function monitored for 48 h. Only 3,5-dichloroaniline hydrochloride induced nephrotoxicity that was characterized as acute renal failure. When 3,5-dichloroaniline free base (0.8 mmol kg-1) was administered in dimethyl sulfoxide (DMSO), all rats died within 24 h. In a second experiment, the free base or hydrochloride form of 3,5-dichloroaniline (1.5 mmol kg-1) or vehicle (0.9% saline or sesame oil, respectively) were administered orally and renal function monitored for 48 h. No evidence of nephrotoxicity was observed following either treatment. However, when the hydrochloride salt was given in 25% DMSO in 0.9% saline, all rats died within 24 h, with two rats demonstrating increased proteinuria, glucosuria and hematuria within the first 6 h after treatment. These results demonstrate that 3,5-dichloroaniline nephrotoxicity is potentiated by the administration of systemic acid, but that acid alone has no effect on renal function at the dose tested. Also, 3,5-dichloroaniline (hydrochloride or free base form) is less toxic orally than when administered i.p.(ABSTRACT TRUNCATED AT 250 WORDS)
N-(3,5-Dichlorophenyl)succinimide (NDPS) is an agricultural fungicide that induces nephrotoxicity as its major toxicity. NDPS is also a more potent nephrotoxicant in female than in male rats. The purpose of this study was to examine the nephrotoxic potential of the two NDPS metabolites N-(3,5-dichlorophenyl)-2-hydroxysuccinimide (NDHS) and N-(3,5-dichlorophenyl)-2-hydroxysuccinamic acid (2-NDHSA) in age-matched male and female Fischer 344 rats to determine if gender differences exist for the nephrotoxicity induced by the two NDPS metabolites. Rats (4 per group) were administered a single intraperitoneal (ip) injection of NDHS or 2-NDHSA (0.025 or 0.05 mmol/kg) or vehicle, and renal function was monitored for 48 h. Neither compound induced significant nephrotoxicity in male rats at the doses tested. However, in female rats both metabolites induced marked nephrotoxicity at the 0.05 mmol/kg dose level, and treatment with 0.025 mmol/kg 2-NDHSA induced some changes in renal function (transient diuresis, transient proteinuria, decreased organic ion accumulation). Little effect on renal function was induced in females by treatment with 0.025 mmol/kg NDHS. At toxic levels in female rats, the renal lesions were located primarily in the S2 and S3 segments of the proximal tubule. These results indicate that, like the parent compound, gender differences exist in the nephrotoxic potential of NDHS and 2-NDHSA. The results also suggest that in females, as in males, NDPS nephrotoxicity is mediated via NDHS and/or 2-NDHSA. However, it is not clear if the ultimate nephrotoxicant species following NDPS exposure is different in males and females or if the same ultimate nephrotoxicant species is produced in both species but handled differently by male and female kidneys. Thus, further studies are needed to determine the exact nature of the ultimate nephrotoxicant species and the mechanisms of the observed gender differences.
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