Gender-related response in open-field activity following developmental nicotine exposure in rats.

Smoking during pregnancy may lead to low birthweight and behavioral alterations in the offspring. In this study, the effects of developmental nicotine exposure on the somatic growth of the offspring and the behavioral performance in the open-field test were examined. Sprague-Dawley female rats were implanted with nicotine (35 mg for 21-day time release; NIC 35) or placebo pellets on gestational day (GD) 8 (postblastocyst implantation). A normal control group with no pellet implant was also included. There was a significantly higher maternal weight gain in the placebo group possibly due to a larger litter size. However, there were no significant differences in body weights among all three treatment groups for male and female offspring. The amount of activity, measured by the total number of crossings in the open-field test, indicated a gender difference in baseline level and pattern of ambulatory activity, with less activity (lower number of crossings) in male offspring and an increase in the activity of the female offspring as a function of testing day. The increase in the ambulatory activity of the female offspring was observed in the placebo and normal, but not the NIC 35 group suggesting that developmental nicotine exposure interferes with open-field activity, and this behavioral alteration is gender related.

Long-term nicotine exposure reduces Purkinje cell number in the adult rat cerebellar vermis.

Nicotine affects functions of the central nervous system. A previous study showed that developing cerebellar Purkinje cells are targets for early postnatal nicotine exposure. In this study, we assessed the effects of long-term nicotine exposure on mature cerebellar Purkinje cells. This is particularly relevant since the majority of smokers are exposed to nicotine over a long period. Female adult Sprague-Dawley rats received three doses of nicotine (0.01%, 0.03%, or 0.06%) through their sole water source. After 8 weeks of nicotine exposure, the cerebellar vermis was removed and processed for stereological cell counting. The results showed that this long-term nicotine treatment did not change the cerebellum weight or the size (volume) of the cerebellar vermis. The long-term nicotine treatment regimen did result in a significant loss of mature Purkinje cells in the cerebellum, however, such a loss of Purkinje cells was not nicotine dose-related. These findings indicated that the mature adult cerebellum is susceptible to the damaging effects of nicotine in depleting Purkinje cells in the cerebellum.