Variations in the response of enzyme-dissociated rat pituitary cells to thyrotropin releasing hormone

Abstract

While exploring the interaction between thyrotropin releasing hormone (TRH) and normal rat anterior pituitary cells in monolayer culture we observed that cells dissociated with the use of trypsin did not respond to TRH with an increase in either TSH or prolactin (PRL) release. The dissociated cells were cultured for 3 days, then washed to remove serum proteins and exposed to 10 −6M TRH for 3 hours. TSH and PRL secretion from stimulated and unstimulated cultures was determined by radio-immunoassay and normalized using cell protein. When such trypsin-dissociated cells were exposed to 0.5 mM dibutyryl cyclic AMP the release of both TSH and PRL doubled indicating that the intracellular secretory machinery was functional and that the block to TRH was proximal to the formation of cyclic AMP and presumably at the level of a TRH surface receptor. Previous studies have shown that such trypsin-dissociated cells respond to LHRH and a crude hypothalamic extract with a dose dependent increase in LH, FSH and ACTH release. This rules out a non-specific effect of trypsin. When pituitary cells were dissociated with a non-trypsin technique, the unstimulated release of both TSH and PRL was comparable to that found with the trypsin-dissociated cultures. However, these cultures did respond to TRH with an increase in TSH release although again no effect was seen with PRL. The susceptibility of the cells to trypsin suggests the possibility that a protein moiety may be closely associated with the function of the receptor.