| Abstrakt: |
The effects of the cyclic aromatic hydrocarbon, benzo(a)pyrene (BaP) and that of the tobacco alkaloid, nicotine, on prolactin (PRL) and growth hormone (GH) synthesis by rat pituitary tumor cells in culture (GH cells) have been studied. Treatment of GH cells with nicotine (0.1–300 μg/ml) neither affected the growth, nor significantly altered the general pattern of hormone production in these cells. BaP at concentrations greater than 5 μg/ml irreversively inhibited the growth of these cells. The sublethal concentrations of BaP, which did not affect either 1) cell growth, or 2) amino acid transport or 3) total protein synthesis or degradation, did however inhibit specifically, hormone synthesis by these cells. More interestingly concentrations of nicotine which did not affect either cell growth or hormone synthesis, modulated both of these cellular processes in the presence of BaP. A concentration dependent stimulation of microsomal BaP monooxygenase activity was observed in nicotine or BaP treated cells. The effects of these drugs on stimulation of BaP monooxygenase activity seems to be additive. Nicotine also enhanced the association of radioactivity (presumably [3H] BaP metabolites) with DNA in [3H] BaP treated cells. It is concluded that nicotine by itself did not demonstrate any cytotoxic effect nor influence hormone synthesis in GH cells. However, this constituent of tobacco smoke stimulated BaP monooxygenase activity and the interaction of [3H] BaP metabolites with cellular DNA and also modulated BaP induced inhibition of hormone synthesis in GH cells. |
