Crucial role of the 5-HT sub(2C) receptor, but not of the 5-HT sub(2A) receptor, in the down regulation of stimulated dopamine release produced by pressure exposure in freely moving rats

Helium pressure of more than 2 MPa is a well known factor underlying pressure-dependent central neuroexcitatory disorders, referred to as the high-pressure neurological syndrome. This includes an increase in both serotonin (5-HT) and dopamine (DA) release. The relationship between the increase in 5-HT transmission produced by helium pressure and its effect on DA release has been clarified in a recent study, which have first demonstrated that the helium pressure-induced increase in DA release was dependent on some 5-HT receptor activation. In the present study, we examined in freely moving rats the role of 5-HT sub(2A) and 5-HT sub(2C) receptors in the increase in DA release induced by 8 MPa helium pressure. We used the 5-HT sub(2A) receptor antagonist ketanserin and the 5-HT sub(2C) receptor agonist m-CPP which have been demonstrated to reduce DA function. Because neither ketanserin is an ideal 5-HT sub(2A) receptor antagonist nor m-CPP an ideal 5-HT sub(2C) receptor agonist, additional experiments were made at normal pressure to check up on the selectivity of ketanserin and m-CPP for 5-HT sub(2A) and 5-HT sub(2C) receptors, respectively. Administration of m-CPP reduced both DA basal level and the helium pressure-induced increase in DA release, whereas administration of ketanserin only showed a little effect on the increase in DA release produced by high helium pressure. These results suggest that the 5-HT sub(2C) receptor, but not the 5-HT sub(2A) receptor, would play a crucial role in the helium pressure-induced increase in DA release. This further suggests that helium pressure may simultaneously induce an increase in 5-HT transmission at the level of 5-HT sub(2A) receptors and a decrease in 5-HT transmission at the level of 5-HT sub(2C) receptors.