Chronic and acute effects of forskolin on isolated thyroid cell metabolism.

The chronic treatment (2 days or more) of cultured thyroid cells with 1-10 microM forskolin (forskolin-treated cells) sensitizes the response of adenylate cyclase to further acute stimulation by 100 microM forskolin or 10 mU/ml thyrotropin (TSH). This positive regulation, similar to that produced by 0.1 mU/ml TSH (TSH-treated cells), is obtained between 2 and 3 days of culture. The acute response to TSH or forskolin of cells treated for 4 days with forskolin increases with the concentration of forskolin present during the chronic treatment. This result is different from that obtained after a chronic treatment with TSH which induces refractoriness beyond 0.1 mU/ml. These cells are then desensitized to TSH but not to forskolin. When both agonists are mixed together, their acute effect is additive on control, TSH- and forskolin-treated cells. The chronic treatment of cultured thyroid cells with 1-10 microM forskolin produces, just like 0.1 mU/ml TSH, a chronic phospholipid effect characterized by enhanced incorporation of 32Pi into phosphatidylinositol (PI) and phosphatidic acid. The acute challenge of these cells with 100 microM forskolin evokes a reverse phospholipid effect, i.e. a decreased incorporation of 32Pi into PI. The acute stimulation of TSH-treated cells with TSH produces a reverse phospholipid effect whereas the acute stimulation of forskolin-treated cells with TSH gives a normal phospholipid effect as it does on control cells. These results show that the observed effects of TSH on cAMP accumulation and phospholipid turnover are not independent and are regulated in an inverse reciprocal pattern.