Carol S. Forsyth scite author profile

Conium maculatum (poison hemlock, CM) is teratogenic in several domestic species, presumably due to its piperidine alkaloids, including coniine, which has been verified to be teratogenic in cattle. Coniine/CM teratogenicity culminates in production of arthrogryposis. The purpose of this study was to evaluate coniine-induced teratogenicity in two laboratory animal species, Sprague-Dawley rats and New Zealand white rabbits. Pregnant rats were given coniine (25 mg/kg body weight) by oral gavage at 8-hour intervals on gestation days 16-18. Pregnant rabbits were given coniine (40 mg/kg body weight) by oral gavage at 8-hour intervals on gestation days 20-24. Rats were killed on day 19 and rabbits on day 29. Fetuses were immediately removed, weighed, and examined for external abnormalities. Alternate fetuses were either stained for skeletal examinations with alizarin red-S or fixed in Bouin's solution for visceral examination. Symptoms of maternal intoxication due to coniine administration were observed in both the rat and the rabbit, and higher doses were uniformly lethal. Rabbits treated with coniine appeared to lose more weight and eat less than controls, but there was no statistically significant difference between groups. Fetal weights were significantly lower in coniine-exposed rat and rabbit fetuses indicating fetotoxicity. The only statistically significant treatment-related visceral or skeletal malformation was a reduction of cranial ossification of rabbit fetuses, probably related to maternal toxicity. Coniine-exposed rabbit litters tended to be affected by arthrogryposis (no bony deformities noted on skeletal exam) more than controls (2/6 vs. 0/9).

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Lack of inducibility of brain monooxygenase activities including parathion desulfuration

Chambers

Forsyth

1989

J. Biochem. Toxicol.

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The ability of phenobarbital and beta-naphthoflavone to induce parathion desulfuration, aminopyrine N-demethylation, and NADPH-cytochrome-c reductase activity in the brain and liver of male and female rats was investigated. Activities of all three enzymes were found in similar levels in both the mitochondrial and microsomal fractions of brain. There were no sex differences in brain activities. Liver activities were from 10- to 30-fold higher than brain activities when computed on a tissue-wet-weight-equivalent basis. Although exposure to both inducers increased all three enzyme activities and cytochrome P-450 in liver, neither inducer increased the enzyme activities in mitochondrial or microsomal brain fractions of either sex. Thus, these brain monooxygenase activities appear to be refractory to induction by two classical types of cytochrome P-450 inducers. This lack of inducibility could serve to protect the animal against environmentally enhanced increases in the activation of xenobiotics to neurotoxic metabolites, such as parathion desulfuration to paraoxon.

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Effect of coniine on the developing chick embryo

et al. 1994

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Coniine, an alkaloid from Conium maculatum (poison hemlock), has been shown to be teratogenic in livestock. The major teratogenic outcome is arthrogryposis, presumably due to nicotinic receptor blockade. However, coniine has failed to produce arthrogryposis in rats or mice and is only weakly teratogenic in rabbits. The purpose of this study was to evaluate and compare the effects of coniine and nicotine in the developing chick. Concentrations of coniine and nicotine sulfate were 0.015%, 0.03%, 0.075%, 0.15%, 0.75%, 1.5%, 3%, and 6% and 1%, 5%, and 10%, respectively. Both compounds caused deformations and lethality in a dose-dependent manner. All concentrations of nicotine sulfate caused some lethality but a no effect level for coniine lethality was 0.75%. The deformations caused by both coniine and nicotine sulfate were excessive flexion or extension of one or more toes. No histopathological alterations or differences in bone formation were seen in the limbs or toes of any chicks from any group; however, extensive cranial hemorrhage occurred in all nicotine sulfate-treated chicks. There was a statistically significant (P < or = 0.01) decrease in movement in coniine and nicotine sulfate treated chicks as determined by ultrasound. Control chicks were in motion an average of 33.67% of the time, while coniine-treated chicks were only moving 8.95% of a 5-min interval, and no movement was observed for nicotine sulfate treated chicks. In summary, the chick embryo provides a reliable and simple experimental animal model of coniine-induced arthrogryposis. Data from this model support a mechanism involving nicotinic receptor blockade with subsequent decreased fetal movement.

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Carol S. Forsyth

Activation and degradation of the phosphorothionate insecticides parathion and EPN by rat brain

Comparison of nicotinic receptor binding and biotransformation of coniine in the rat and chick

Evaluation of developmental toxicity of coniine to rats and rabbits

Lack of inducibility of brain monooxygenase activities including parathion desulfuration

Effect of coniine on the developing chick embryo

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