The rate of blood flow through the intact adrenal gland is closely linked to steroid hormone secretion, and although the mechanism involved is unknown, it is thought to involve secretory products of the vascular endothelium. In dispersed cell preparations, endothelin-1 and -3 both caused a dose-dependent and highly sensitive increase in steroid secretion by zona glomerulosa and zona fasciculata cells of the rat and human adrenal cortex. In addition, when the perfused rat adrenal was stimulated with ACTH, significant increases in steroid secretion and perfusion medium flow rate were accompanied by significantly increased secretion of immunoreactive endothelin into the adrenal vein. It is proposed that endothelin has a role in mediating the adrenocortical response to ACTH stimulation.
Several lines of experimentation suggest that a tissue-sequestered pool of 18-hydroxydeoxycorticosterone (18-OH-DOC) in the rat adrenal may be mobilized as an aldosterone precursor. We show here that this steroid is maintained in a non-extractable form in the membranes of collagenase-dispersed fasciculata/reticularis cells. Because of this stability, the complex can be identified by immunocytochemistry and also, in IEF gels of solubilized inner adrenocortical zone membrane preparations, by immunoblotting. However, the complexed steroid cannot be extracted from the gels into organic solvent unless first treated with trypsin. Preincubation of viable whole glandular tissue with trypsin significantly enhanced aldosterone output and eliminated the trypsin-releasable 18-OH-DOC pool in IEF gels of solubilized inner zone membranes. Both prior sodium depletion and acute trypsin stimulation of whole glands enhanced extractable 18-OH-DOC in glomerulosa tissue membranes. Other experiments using in situ hybridization show that mRNA coding for 11 beta-hydroxylase (which generates 18-OH-DOC) is confined to the inner adrenocortical zones, whereas aldosterone synthase (which does not) is transcribed exclusively in the glomerulosa. The data suggest that a pool of 18-OH-DOC in inner zone membranes can be mobilized for utilization as an aldosterone precursor in the glomerulosa. The results also indicate the existence of an entirely novel tightly binding steroid carrier from which steroid cannot be extracted by organic solvent unless first subjected to proteolytic degradation.
When rat adrenal whole capsules, containing the zona glomerulosa, were incubated, addition of the protein kinase C inhibitors TMB-8 (10 mumol/l), W7, H7, polymyxin-B and sphingosine (all 1 mumol/l) was found to inhibit the steroidogenic response to trypsin. Aldosterone and 18-hydroxycorticosterone were strongly, and corticosterone moderately, affected, while the production of 18-hydroxydeoxy-corticosterone was neither stimulated by trypsin nor inhibited by the protein kinase C inhibitors. Addition of neomycin, which prevents substrate interaction with phospholipase C, also inhibited the response to trypsin, while addition of phospholipase C itself stimulated aldosterone, 18-hydroxycorticosterone and corticosterone production with the same tissue sensitivity as trypsin. Addition of phospholipase A2 had no effect. Direct assay of protein kinase C activity showed that trypsin stimulation effected the translocation of Ca2+/phospholipid-activated protein kinase C from the cytosolic to the membrane fraction. When glomerulosa tissue was incubated with [32P]ATP, and cytosolic proteins were subjected to isoelectric focusing on polyacrylamide gels, autoradiography showed that incorporation of 32P into several protein components was increased by trypsin stimulation. It was concluded that trypsin exerts its stimulatory effects on steroidogenesis by activating protein kinase C; not, however, by generating the Ca2+/phospholipid-independent fragment, but possibly by enhancing the activity of phospholipase C.
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