Evidence that long-term methionine-enkephalin administration stimulates rat adrenal zona fasciculata

β-endorphin binding in cultured adrenal cortical cells

The polypeptide β-endorphin binds to cultured bovine adrenal cortical cells in a naloxone insensitive manner, β-endorphin and N-Acetyl-β-endorphin are equipotent in inhibiting binding. The amino terminal 27 amino acid fragment referred to as β-endorphin[1-27] shows no ability to inhibit binding, whereas the carboxy-terminal tetrapeptide Lys-Lys-Gly-Glu partially inhibits binding. ACTH, angiotensin II and met-enkephalin show little or no ability to inhibit β-endorphin binding. Competition bin-ding reveals an apparently single affinity class with Kd of 33 nM. Molecular cross linking experiments reveal putative receptor subunits of 85 kD, 64 kD, 54 kD and 44 kD. The lower molecular weight bands are preferentially cross-linked by a hydrophobic cross linking reagent, in contrast to the two higher molecular weight bands, which are cross linked equally by hydrophobic and water soluble cross linking reagents. The β-endorphin binding characteristics of adrenal cortical cells revealed here are quite similar to those of a class of non-opioid β-endorphin receptors previously shown to exist in cells of the immune system.

The role of neuropeptides in the regulation of adrenal zona fasciculata/reticularis function. Effects of vasoactive intestinal polypeptide, substance P, neuropeptide Y, Met- and Leu-enkephalin and neurotensin on corticosterone secretion in the intact perfused rat adrenal gland in situ

There is much evidence to suggest that glucocorticoid secretion may be influenced by the splanchnic innervation to the adrenal gland, and that this effect may be mediated by neuropeptides. The present studies investigated the effects of several neuropeptides on corticosterone secretion by the intact perfused rat adrenal gland in situ. Both vasoactive intestinal polypeptide and Met-enkephalin caused a dose-dependent increase in corticosterone secretion, with a maximum response of 450% and 370% increment in corticosterone respectively. Of the other peptides tested, Leu-enkephalin, substance P and neurotensin all stimulated corticosterone secretion, with a maximum response of around 160% increase in each case. Neuropeptide Y on the other hand, had only a minor effect, which was only apparent over a small dose range. These results support the theory that adrenal neuropeptides may have a role in the regulation of glucocorticoid secretion.

Effects of neuropeptide-Y and substance-P on the secretory activity of dispersed zona-glomerulosa cells of rat adrenal gland

Neuropeptide-Y (NPY) and substance-P (SP), two peptides contained in the chromaffin granules of adrenal medullary cells, were found to partially inhibit both basal ACTH-stimulated release of aldosterone and 18-hydroxy-corticosterone by isolated rat zone-glomerulosa cells, without affecting the overall post-pregnenolone yield or basal progesterone output. Conversely, the exposure to both peptides increased 11-deoxy-corticosterone and corticosterone secretion. These data indicate that NPY and SP are able to exert a direct suppression of 18-hydroxylase activity in rat zona-glomerulosa cells, without conceivably altering the earlier steps of aldosterone synthesis. The possible physiological implications of these findings are discussed in light of previous studies suggesting a net adrenoglomerulotrophic effect of NPY and SP in vivo.

Evidence that long-term administration of a methionine-enkephalin analogue stimulates the growth and steroidogenic capacity of rat inner adrenocortical cells

A prolonged infusion with D-ala2-met-enkephalinamide (DALA) caused a significant increase in both basal and ACTH-stimulated corticosterone secretion by dispersed inner adrenocortical cells of rats whose hypothalamo-hypophyseal axis was pharmacologically interrupted. This effect of DALA was associated with a notable hypertrophy of isolated cells. These findings suggest that enkephalins are involved in the stimulation of the growth and steroidogenic capacity of the cells of the inner layers of rat adrenal cortex.

Effects of substance P on the rat adrenal zona glomerulosa in vivo

Substance P (SP) acutely enhanced the plasma concentration of aldosterone in rats whose hypothalamo-hypophyseal-adrenal axis and renin-angiotensin system were pharmacologically interrupted. The maximal response was obtained with a dose of 100 micrograms/kg. A prolonged (7 days) subcutaneous infusion with SP (50 micrograms/kg/hr) caused a notable hypertrophy of zona glomerulosa cells associated with significant rises in both basal and angiotensin-stimulated plasma levels of aldosterone. Zona fasciculata and the blood concentration of corticosterone were not affected. These findings suggest that SP is specifically involved in the stimulation of the growth and secretory activity of the rat zona glomerulosa.

Investigations on the effects of long-term administration of a methionine-enkephalin analogue on the adrenal zona fasciculata of rats treated with dexamethasone or dexamethasone and ACTH

Prolonged (7 days) methionine-enkephalin (DALA) treatment provoked a dose-dependent increase in the volume of zona fasciculata cells of dexamethasone-administered rats, along with a notable rise in the plasma concentration of corticosterone and the activity of 11 beta-hydroxylase. Comparable dose-dependent effects were observed after chronic administration of ACTH to dexamethasone-suppressed rats. The chronic administration of the maximum dose of DALA (500 micrograms/kg/day) was found to significantly further the trophic action of ACTH on the zona fasciculata of dexamethasone-treated animals. It is suggested that enkephalins act independently of and synergistically with ACTH in stimulating the growth and steroidogenic capacity of the rat adrenal zona fasciculata.