Two closely related retinoids, all-trans and 13-cis retinoic acids, were assessed for their relative activities as teratogens in ICR mice by monitoring the frequency with which either isomer produced discrete dysmorphogenesis of the embryonic limb and the secondary palate. A single oral dose of all-trans retinoic acid at 100 mg/kg on either day 11.5 or 12.0 of gestation (plug day = day one) was maximally effective; more than 90% of the treated embryos developed reduction defects of the limb bones and an equally high percentage also had cleft palate. The limb development was most sensitive on day 11.5 of gestation while the peak susceptibility for palatal clefts began on day 12.0. Under identical experimental conditions, treatment with 100 mg/kg 13-cis retinoic acid produced no apparent teratogenic effects. By assessing the relative incidence of readily identifiable malformations of the limb and palate associated with various doses of the two isomers, we found that 13-cis retinoic acid was four to eight times less embryopathic than all-trans retinoic acid. Since the mechanism of teratogenic action of retinoids is still far from clear, it is suggested that further studies on causative factors will be greatly assisted by the use of these two closely related retinoids, which substantially differ from each other in their teratogenic potency.
Acetazolamide was administered orally by gavage to pregnant mice twice a day on days six through 15 of gestation at a dose level of 300.0 mg/kg. This treatment produced maternal toxicity as evidenced by significantly reduced food consumption and body weight gain. Embryotoxicity demonstrated by significant reductions in fetal weight and crown-rump length was also observed. Resorption rates were considerably higher (77.9%) for the acetazolamide treated litters when compared to those from the control group (8.23%). A variety of malformations was observed in the acetazolamice-treated rats (rib and vertebral fusion, gastroschisis, tail defects, cleft palate and ectrodactyly). These results further establish acetazolamide as an acceptable positive teratogenic control by demonstration of species and strain susceptibility in the CD-1 mouse.
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