The relationship between the relative nephrotoxicity of the mercapturic acids (NAc) of the fluorinated ethylenes tetrafluoroethylene (TFE), chlorotrifluoroethylene (CTFE), 1,1-dichloro-2,2-difluoroethylene (DCDFE) and 1,1-dibromo-2,2-difluoroethylene (DBDFE), and the biotransformation by activating (N-deacetylase and beta-lyase) and inactivating (N-acetyltransferase) enzymes was studied in the rat. After intraperitoneal (i.p.) administration of 50 mumol/kg of N-(trideuteroacetyl)-labeled mercapturic acids of DCDFE and DBDFE to rats, significant amounts of the dose were excreted unchanged: with DCDFE-NAc, 17% of the dose, and DBDFE-NAc, 31% of the dose. In contrast, the corresponding deuterium-labeled mercapturic acids of TFE and CTFE were excreted unchanged at less than 1% of the dose. With DCDFE-NAc and DBDFE-NAc, also high amounts of unlabeled mercapturic acids were excreted, respectively 48% and 28% of the dose, indicating extensive N-deacetylation followed by reacetylation in vivo. Only small amounts (less than 2%) of unlabeled mercapturic acids were excreted with TFE-NAc and CTFE-NAc. After administration of the cysteine S-conjugates DCDFE-Cys and DBDFE-Cys to rats, high amounts of the corresponding mercapturic acids were detected in urine, respectively 57% and 45% of the dose. After administration of TFE-Cys and CTFE-Cys, however, only small amounts were excreted as the corresponding mercapturic acid, approximately 4% of the dose. The strongly different amounts of mercapturic acids in urine may be attributed to the strong differences in N-deacetylation activities which were found in rat renal fractions. The threshold dose of the mercapturic acids to cause nephrotoxicity in male Wistar rats increased in the order: CTFE-NAc (25 mumol/kg) less than TFE-NAc (50 mumol/kg) less than DCDFE-NAc (75 mumol/kg) less than DBDFE-NAc (100 mumol/kg). A higher ratio of N-deacetylation and N-acetylation activities, resulting in a higher availability of cysteine S-conjugate, in addition to a higher specific activity of cysteine S-conjugate beta-lyase, probably explains the higher nephrotoxicity of TFE-NAc and CTFE-NAc when compared to DCDFE-NAc and DBDFE-NAc. The much lower activities of N-deacetylation and beta-lyase which are observed in hepatic fractions may explain the lack of hepatotoxicity of the mercapturic acids studied.