Preconditioning with subneurotoxic allyl nitrile: protection against allyl nitrile neurotoxicity.

High-dose cruciferous allyl nitrile can induce behavioral abnormalities in rodents, while repeated exposure to allyl nitrile at subneurotoxic levels can increase phase 2 detoxification enzymes in many tissues, although the brain has not been investigated yet. In the present study, we examined the effect of 5 days repeated exposure to subneurotoxic allyl nitrile (0-400 micromol/kg/day) on the brain. Elevated glutathione S-transferase activity was recorded in the striatum, hippocampus, medulla oblongata plus pons, and cortex. Enhancement of quinone reductase activity was observed in the medulla oblongata plus pons, hippocampus, and cortex. In the medulla oblongata plus pons, elevated glutathione levels were recorded. Following repeated subneurotoxic allyl nitrile exposure (0-400 micromol/kg/day), mice were administered a high-dose allyl nitrile (1.2 mmol/kg) which alone led to appearance of behavioral abnormalities. Compared with the 0 micromol/kg/day group, animals in the 200 and 400 micromol/kg/day pre-treatment groups exhibited decreased behavioral abnormalities and elevated GABA-positive cell counts in the substantia nigra pars reticulata and the interpeduncular nucleus. These data suggest that repeated exposure to subneurotoxic levels of allyl nitrile can induce phase 2 enzymes in the brain, which together with induction in other tissues, may contribute to protection against allyl nitrile neurotoxicity.

Allylnitrile: generation from cruciferous vegetables and behavioral effects on mice of repeated exposure.

The objective of the present study was to examine the possible generation of allylnitrile from commonly consumed cruciferous vegetables, and to determine the long-term behavioral effects of its oral administration at levels comparable to or greater than human dietary exposures. On the basis of gaschromatographic and mass spectrometric analyses, allylnitrile generation was observed in eight out of twelve vegetables, broccoli, broccoli (young stems and leaves), brussels sprouts, cabbage, cauliflower, chinese cabbage, komatsuna and kaiware-daikon (young stems and leaves). The daily dietary intake of allylnitrile was estimated to be at least 0.12 micromol/kg body weight for Japanese, based on its generation from the vegetables, broccoli, cabbage, cauliflower and Chinese cabbage and their daily dietary consumption. Mice received oral doses of 2, 20, 200, 500 and 1,100 micromol/kg allylnitrile once a day, 5 days per week for 13 weeks. Mice in the lower dosage groups of 2, 20 and 200 micromol/kg exhibited no behavioral changes. Mice dosed at the level of 500 micromol/kg showed restlessness, and one of them displayed alteration in tail hanging. These abnormalities were seen around seven days following the beginning of the treatment period. Animals in the highest dosage group elicited behavioral abnormalities, and their degree increased with increasing dosage. These results suggest that allylnitrile intake levels through daily vegetable consumption is below the level producing behavioral abnormalities.

Dantrolene sodium reverses the increase in cAMP response element and TPA responsive element DNA-binding activity in the rabbit brain following haloperidol administration and heat stress.

Using electrophoretic mobility-shift assay (EMSA), we examined DNA-binding activity of cAMP response element (CRE), onto its responsive element CRE, as well as TPA responsive element (TRE) in the medial hypothalamus and striatum of the experimental rabbits administered with haloperidol under heat stress exposure and studied the effects of dantrolene sodium to the transcriptional factor. In EMSA with nuclear extracts from the rabbit brain, the DNA-binding activities of CRE and TRE in medial hypothalamus and striatum increased following haloperidol and heat stress. These increases were maintained by coadministration with atropine. The treatment with dantrolene sodium markedly reversed such increases. The alterations of activities of these transcriptional factors may reflect the therapeutic effect of dantrolene sodium.