Close link between protoporphyrin IX accumulation and developmental toxicity induced by N-phenylimide herbicides in rats.

BACKGROUND: S-53482, 7-fluoro-6-[(3,4,5,6-tetrahydro)phthalimido]-4-(2-propynyl)-1,4-benzoxazin-3(2H)-one (flumioxazin), is an N-phenylimide herbicide and developmentally toxic to rats, but not to rabbits. The day of greatest sensitivity to S-53482 is gestational day (GD) 12 in rats. There is a compound-specific difference in developmental toxicity among structurally similar compounds including S-23121 (N-[4-chloro-2-fluoro-5-[(1-methyl-2-propynyl)oxy]phenyl]-3,4,5,6-tetrahydrophthalimide; teratogenic) and S-23031 (pentyl 2-chloro-4-fluoro-5-(3,4,5,6-tetrahydrophthalimido)phenoxyacetate (flumiclorac pentyl); nonteratogenic). The herbicidal action is due to photodynamic action of accumulating protoporphyrin IX (PPIX), resulting from the inhibition of protoporphyrinogen oxidase (PPO), an enzyme in porphyrin biosynthesis. Species difference in PPIX accumulation in embryos corresponded to those of the developmental toxicity. Our objective in this study was to further investigate a link between PPIX accumulation resulting from PPO inhibition and developmental toxicity. This article is part of a series of studies to be published serially. METHODS: To investigate compound-specific differences, each compound was orally administered to rats on GD 12. To define peak period of PPIX accumulation, single oral treatments of S-53482 were given to rats or rabbits at 19:30 on GD 10 through GD 15. PPIX was extracted from embryos 14 hr after treatment. RESULTS: Remarkable PPIX accumulation was observed when treated with S-53482 or S-23121, but not with S-23031. The greatest accumulation of PPIX was observed when treated with S-53482 at 19:30 on GD 11 or GD 12. No PPIX accumulation was found on any GDs in rabbits. CONCLUSIONS: The developmentally toxic compounds caused PPIX accumulation in embryos. The peak period of PPIX accumulation corresponded to that of developmental effects. This correlation suggests a close link between PPO inhibition and developmental abnormality.

Dermal developmental toxicity of N-phenylimide herbicides in rats.

BACKGROUND: S-53482 and S-23121 are N-phenylimide herbicides and produced embryolethality, teratogenicity (mainly ventricular septal defects and wavy ribs), and growth retardation in rats in conventional oral developmental toxicity studies. Our objective in this study was to investigate whether the compounds induce developmental toxicity via the dermal route, which is more relevant to occupational exposure, hence better addressing human health risks. METHODS: S-53482 was administered dermally to rats at 30, 100, and 300 mg/kg during organogenesis, and S-23121 was administered at 200, 400, and 800 mg/kg (the maximum applicable dose level). Fetuses were obtained by a Cesarean section and examined for external, visceral, and skeletal alterations. RESULTS: Dermal exposure of rats to S-53482 at 300 mg/kg produced patterns of developmental toxicity similar to those resulting from oral exposure. Toxicity included embryolethality, teratogenicity, and growth retardation. Dermal administration of S-23121 at 800 mg/kg resulted in an increased incidence of embryonic death and ventricular septal defect, but retarded fetal growth was not observed as it was following oral exposure to S-23121. CONCLUSIONS: Based on the results, S-53482 and S-23121 were teratogenic when administered dermally to pregnant rats as were the compounds administered orally. Thus, investigation of the mechanism and its human relevancy become more important.

Difference in developmental toxicity among structurally similar N-phenylimide herbicides in rats and rabbits.

BACKGROUND: S-53482 is an N-phenylimide herbicide and shows a remarkable species difference in developmental toxicity between rats and rabbits. The herbicide produced embryolethality, teratogenicity (mainly ventricular septal defects and wavy ribs), and growth retardation in rats, but not in rabbits. Our objective in this study was to investigate differences in developmental toxicity among N-phenylimide compounds structurally similar to S-53482 to better characterize the developmental effects of S-53482 on rat and rabbit embryos as part of research investigation to elucidate a mechanism of rat developmental toxicity produced by S-53482. This paper is part of a series of studies to be published serially. METHODS: S-23121 or S-23031, both of which are structurally similar to S-53482, was orally administered to rats and rabbits during fetal organogenesis. Fetuses were obtained by cesarian section and examined for external, visceral, and skeletal alterations. RESULTS: S-23121 produced the similar pattern of developmental toxicity such as embryolethality, teratogenicity, and growth retardation in rats. In contrast, S-23031 showed no developmental toxicity at 1500 mg/kg. Rabbits were insensitive to all study compounds. CONCLUSIONS: The difference in developmental toxicity in rats was striking among N-phenylimide herbicides. The mechanism of action of developmental toxicity by S-53482 should account for the compound-specific difference as well as species difference between rats and rabbits.