Effect of beta-lipotropin on aldosterone production in the isolated rat adrenal cell preparation.

Abstract

Stimulation of aldosterone and corticosterone production by pituitary peptides structurally or biosynthetically related to ACTH was investigated in suspensions of isolated rat adrenal glomerulosa and fasciculata cells, respectively. Three different preparations of highly purified ovine (Li) or human (Chrétien and Orth) beta-lipotropin (beta LPH) were tested. In contrast to synthetic ACTH-(1-24), which stimulated aldosterone secretion at concentrations of 10(-12)-10(-11) M, beta LPH concentrations of 10(-8)-10(-6) M were required for significant stimulation. Stimulation of corticosterone production by beta LPH preparations generally paralleled their aldosterone-stimulating activity, and most steroidogenic activity could be accounted for by immunoreactive ACTH, as determined in two ACTH RIAs. Synthetic human beta LPH-(37-58), which contains the 47-53 heptapeptide sequence common to beta LPH and ACTH, had aldosterone- and corticosterone-stimulating activities similar to those of equimolar concentrations of beta LPH, whereas synthetic fragments of the COOH-terminal (61-91) portion of beta LPH had no steroidogenic activity. These data indicate that part of the slight steroidogenic activity of purified beta LPH preparations is due to contaminating ACTH, and part is due to the intrinsic ACTH-like activity conferred upon beta LPH by the amino acid sequence shared with ACTH. In contrast to ACTH, the concentrations of beta LPH required to stimulate adrenal steroidogenesis were 10(2)-10(5) times greater than normal plasma levels, indicating that physiological pituitary beta LPH secretion has no direct role in regulating the secretion of aldosterone.