Endocrinology, Vol 131, 1251-1260, Copyright © 1992 by Endocrine Society

ARTICLES

Thyrotropin-releasing hormone and lysine-bradykinin stimulate arachidonate liberation from rat anterior pituitary cells through different mechanisms

AM Judd and RM MacLeod
Department of Internal Medicine, University of Virginia Health Sciences Center, Charlottesville 22908.

TRH and lysine-bradykinin (Lys-bradykinin) increase PRL release and arachidonate liberation from anterior pituitary cells. We investigated whether the arachidonate liberation stimulated by TRH and Lys- bradykinin originates in pituitary lactotropes and whether these events are accomplished through similar mechanisms. Lys-bradykinin and TRH rapidly (0.5 min) increased the intracellular [3H]arachidonate content of rat anterior pituitary cells. Lys-bradykinin also increased [3H]arachidonate liberation and PRL release from lactotrope-enriched pituitary cells, but not from a pituitary cell preparation with a diminished number of lactotropes. In contrast, TRH increased [3H]arachidonate liberation from both lactotrope-enriched and lactotrope-diminished preparations; this increased [3H]arachidonate liberation stimulated by TRH in the lactotrope-diminished cells may originate in the thyrotropes. The effects of TRH and Lys-bradykinin on [3H]arachidonate and [14C]stearate liberation in perfused pituitary cells also were determined. Both secretagogues increased arachidonate and stearate liberation in a biphasic manner, characterized by a transient spike, followed by a lower magnitude wave of fatty acid release. The spike phase produced by Lys-bradykinin was more pronounced than that produced by TRH. The calcium dependence of TRH- and Lys- bradykinin-stimulated arachidonate liberation also was investigated. Cobalt and the low calcium medium containing ionomycin were used to block the secretagogue-induced increase in intracellular calcium concentrations. These conditions blocked TRH-stimulated arachidonate liberation, but only marginally decreased Lys-bradykinin-stimulated arachidonate liberation, indicating that the two peptides act through different mechanisms. Therefore, TRH stimulation of arachidonate liberation is linked to an increase in intracellular calcium. In contrast, Lys-bradykinin increases arachidonate liberation through a calcium-independent intracellular mediator. This calcium-independent increase in arachidonate liberation may involve the bradykinin receptor being coupled directly to a phospholipase, a G-protein that provides a link between the bradykinin receptor and the phospholipases that liberate arachidonate, or bradykinin-induced activation of a protein kinase-C that activates the phospholipases and subsequently liberates arachidonate.