Hypothalamic prolactin: characterization by radioimmunoassay and bioassay and response to hypophysectomy and restraint stress.

Prompted by immunohistochemical reports of prolactin-like immunoreactivity in cell bodies within the rat hypothalamus, a study was undertaken to quantitate the immunologic and biologic activity of this material. Hypothalamic concentrations of prolactin-like immunoreactivity averaged 402 +/- 23 pg/mg of protein (n = 30). 97% recovery of rat prolactin standards added to homogenates of hypothalamus insured that neuronal tissue, as prepared for these studies, did not interfere with the radioimmunoassay of rat prolactin. Examination of the elution profile from Sephadex G-75 columns of the prolactin-like immunoreactivity in hypothalamic extracts showed that the majority of hypothalamic prolactin-like substance was of a larger molecular size than pituitary prolactin. While increasing amounts of brain extract progressively displaced more I125 prolactin from antibody-binding sites, the displacement curve produced by adding hypothalamic extract was not parallel to that produced by the addition of increasing amounts of anterior pituitary prolactin standards of rat origin. Hypothalamic extracts from hypophysectomized animals, analyzed for biologic activity in the Nb2 lymphoma cell assay, revealed prolactin-like bioactivity, but the bioactivity/immunoactivity (B/I) ratios for hypothalamic extracts were significantly lower than the B/I ratios for pituitary prolactin (0.71 +/- 0.04 for pituitary, vs. 0.19 +/- 0.06 in the hypothalamus; p less than 0.001). Hypophysectomy, which led to the expected fall in serum prolactin to undetectable levels, and restraint stress, which resulted in a statistically significant 4-fold rise in serum prolactin, caused no change in prolactin concentrations in the hypothalamus, indicating that brain prolactin-like substance is regulated independently of pituitary prolactin and circulating serum prolactin levels.