Effects of thyrotropin and N 6,O 2′-dibutyryl cyclic 3′,5′-adenosine monophosphate on prostaglandin levels in thyroid

Abstract

We have shown that TSH increases PG levels in isolated bovine thyroid cells. We now report that TSH also increases PG levels in rat and mouse thyroid, and that these effects may be mediated via cyclic AMP. PG and cyclic AMP levels in intact rat and mouse thyroid lobes were measured by radioimmunoassay. During 60-min incubations at 37°C, 25 mU/ml TSH effected a 75–83% increase in PGE 1 and PGF 2α ”equivalents“ in rat thyroid; parallel measurements of endogenous cyclic AMP in these intact thyroid lobes revealed that maximal TSH-induced increase in cyclic AMP also required 60-min incubations. In mouse thyroid, 5 mU/ml TSH increased PGE 1 and PGF 2α levels 38–82% above basal; this TSH effect was evident within 15 min of incubation, thus mimicking the time-course of TSH-induced increase in mouse thyroid cyclic AMP. Exogenous DBcAMP, 0.5 to 3 mM, effected a dose-related increase in mouse thyroid PG levels. The stimulatory effects of both TSH and DBcAMP on mouse thyroid PG levels were abolished by aspirin and indomethacin. These studies suggest that TSH-induced increase in endogenous PG levels in thyroid may be mediated by cyclic AMP.