Ascorbate stimulates monooxygenase-dependent steroidogenesis in adrenal zona glomerulosa

It is well known that ascorbic acid (Asc) is highly concentrated in the adrenal gland, but its function in the gland is not thoroughly elucidated. We therefore examined the possibility that Asc participates in steroidogenic monooxygenase systems of the adrenal cortex with the aid of the regenerating system including outer mitochondrial membrane cytochrome b (OMb). When Asc availability was limited in rat mutants unable to synthesize Asc, the increase in plasma aldosterone concentration under Na-deficiency was suppressed without effect on plasma corticosterone concentration. Aldosterone formation in the isolated mitochondrial fraction of the zona glomerulosa (zG) of the adrenal cortex was stimulated by the addition of Asc and NADH, while corticosterone formation was not. Consistently zG showed a high level of Asc regeneration activity and was rich in OMb among adrenocortical zones. Taken together, the enhanced aldosterone formation that is catalyzed by one of the steroidogenic monooxygenases, P450aldo, may be supported by Asc with its regenerating system.     

Actions of synthetic atrial natriuretic factor on bovine adrenal glomerulosa

Synthetic atrial natriuretic factor (ANF) inhibited aldosterone production by suspensions of bovine adrenal glomerulosa cells. Inhibition by ANF was most pronounced when basal aldosterone production was measured. The effects of angiotensin II (AII), N6,O2'-dibutyryl-adenosine 3':5'-cyclic monophosphate (dibutyryl cyclic AMP), and elevated potassium were also inhibited by ANF. Inhibition could be partially overcome by high doses of agonist. Inhibition was localized to the early pathway of aldosteronogenesis, to a step before cholesterol side-chain cleavage. ANF had no effect on binding of AII to receptors, on the stimulation by AII of phospholipid turnover, or on the alteration by AII of calcium fluxes.     

Calcium stimulates steroidogenesis in permeabilized bovine adrenal cortical cells

The effect of Ca2+ on steroid production was examined in electropermeabilized bovine adrenal zona glomerulosa and fasciculata cells. The cells were superfused with a medium mimicking cytosolic ionic content but deprived of Ca2+. The permeabilized glomerulosa cells produced aldosterone at a low basal rate. Upon addition of NADP+ to the medium, a transient and concentration-dependent (EC50 = 6 microM) peak of aldosterone production occurred. When the superfusion medium was supplemented with buffered Ca2+ at submicromolar concentrations, a concentration-dependent and sustained increase of aldosterone output was observed. The maximal response (2-3 times the basal secretion rate) was achieved with 1-2 microM ambient free Ca2+, and the EC50 for Ca2+ was 0.5 microM. The continuous presence of NADP+ was found to be necessary for a Ca2+ effect. The Ca2+-induced aldosterone response was entirely blocked by ruthenium red (1 microM), an inhibitor of mitochondrial Ca2+ uptake, and by W-7 (5 microM), a calmodulin inhibitor. Qualitatively and quantitatively similar results were obtained for corticosterone production in adrenal fasciculata cells. These results show that permeabilized adrenal cortical cells retain the ability to produce steroids. Moreover, Ca2+ influx into the mitochondria and Ca2+/calmodulin-dependent reactions appear to be critical steps in the activation of steroidogenesis. These studies provide a further direct link between cytosolic free calcium concentration and biological responses induced by steroidogenic, calcium-mobilizing stimulators in the adrenal cortex.     

Effects of IGF-I on proliferation and steroidogenesis of cultured adrenal zona glomerulosa cells

In a primary culture of bovine adrenal zona glomerulosa cells, insulin-like growth factor I (IGF-I)/somatomedin C stimulated DNA synthesis, as measured by [3H] thymidine uptake, at concentrations of 10(-9) and 10(-7) M. IGF-I also prevented ACTH-induced suppression of [3H] thymidine uptake. IGF-I in no way affected aldosterone secretion during short-term exposure to cultured cells, however. Our findings suggest that IGF-I plays an important role in the proliferation of adrenal zona glomerulosa cells.     

Vasopressin: a potent growth factor in adrenal glomerulosa cells in culture

Previous studies have shown that vasopressin stimulates the mitotic activity in adrenal zona glomerulosa cells in intact as well as in hypophysectomized rats. (Payet and Isler, Cell and Tissue Res. 172, 1976; Payet and Lehoux, J. steroid Biochem. 12, 1980). We now report that this effect is direct and specific, since vasopressin stimulates the mitotic activity of rat adrenal zona glomerulosa cells in primary cultures. These cells were prepared by dissociation with collagenase in the culture medium MEM-d-Valine. Isolated cells were placed in 3.5 diameter petri dishes in MEM-d-valine medium containing 15% fetal calf serum and antibiotics for two days and 5% fetal calf serum for subsequent cultures. The medium was changed at 24 hr intervals. The hormones were added 3 days after the culture was started. The mitogenic effect of vasopressin was found to be dependent both on time and hormone concentrations. Vasopressin (10(-11) M) stimulated thymidine incorporation 4.8 +/- 0.6-fold after 2 days of treatment and 5.3 +/- 1.6-fold after 8 days. When ACTH (10(-11) M) was added together with vasopressin (10(-11) M) the mitogenic effect was enhanced at 6.5 +/- 1.9-fold after 2 days and 12.9 +/- 6.9-fold after 8 days of treatment. The aldosterone and corticosterone outputs were also stimulated by the combined presence of vasopressin and ACTH in the incubation medium; a maximal effect was observed between 6 and 8 days of treatment. Vasopressin (10(-11) M) + ACTH (10(-11) M) stimulated the aldosterone output 7-fold and that of corticosterone by 18-fold. When added alone, vasopressin, as well as ACTH alone had only a small effect on the aldosterone output. However, ACTH alone stimulated the corticosterone output 10-fold. In conclusion, vasopressin is an important and specific growth factor of the adrenal zona glomerulosa cells. In addition, together with ACTH vasopressin stimulates the aldosterone and corticosterone output both in vivo and in vitro in primary cell cultures.     

Angiotensin-induced formation and metabolism of inositol polyphosphates in bovine adrenal glomerulosa cells

The actions of angiotensin II (AII) on inositol polyphosphate production and metabolism were analyzed in cultured bovine adrenal glomerulosa cells. In cells labeled for 24 hr with [3H]inositol, AII caused a rapid and prominent rise in formation of Ins-P3 (mainly the Ins-1,3,4,-P3 isomer) and of Ins-P4, with marked increases in two isomers of Ins-P2 and Ins-P. These findings are consistent with rapid formation and turnover of Ins-1,4,5-P3, partly via conversion to Ins-1,3,4,5-P4 with subsequent metabolism to Ins-1,3,4-P3 and lower inositol phosphates. The demonstration of a cytosolic Ins-P3-kinase gave further evidence for the presence of the tris/tetrakisphosphate pathway and Ins-P4 synthesis during AII action in the bovine adrenal cortex.     

Dopamine inhibition of potassium-stimulated aldosterone biosynthesis in bovine adrenal zona glomerulosa cells

Dopamine inhibits angiotensin II-stimulated aldosterone production by an effect on the late phase of biosynthesis. This study was undertaken to investigate the effect of dopamine on potassium-stimulated aldosterone biosynthesis in adrenal glomerulosa cells in vitro. As potassium concentrations were increased from 0 to 12 mM, aldosterone production increased up to 6 mM potassium, but not beyond this concentration. Dopamine (10(-5)M) inhibited the aldosterone response to potassium. The effect of potassium on pregnenolone accumulation (the early phase of aldosterone biosynthesis) was assessed in cells treated with trilostane which inhibits the conversion of pregnenolone onward to aldosterone. Increasing potassium concentrations up to 12 mM gave increasing pregnenolone accumulation; however dopamine did not influence this effect. The potassium stimulated conversion of corticosterone to aldosterone, an index of activity in the late phase of aldosterone biosynthesis, was assessed using aminoglutethimide to prevent cholesterol side-chain cleavage. Significantly more corticosterone was converted to aldosterone at 6 mM potassium than at 0 or 12 mM; dopamine inhibited the conversion of corticosterone to aldosterone at 6 mM potassium. These data indicate that dopamine inhibits potassium-stimulated aldosterone production by an effect restricted to the late phase of the aldosterone biosynthetic pathway similar to its previously established effect on angiotensin II-stimulated aldosterone biosynthesis.     

Characterization of specific receptors for atrial natriuretic factor in bovine adrenal zona glomerulosa

We have recently shown that synthetic rat atrial natriuretic factor (ANF) directly inhibits mineralocorticoid and glucocorticoid secretion in cultured bovine adrenal cells with a potency of 100 pM. [125I]iodo-ANF was used in the present study to characterize potential receptor sites in bovine zona glomerulosa membranes. ANF binds to a class of high affinity binding sites with a pK of 10.2 and a density of 1.3 pmol/mg protein. Detailed competition curves with ANF document a class of high affinity sites with a pK of 10.2 and also a second class of lower affinity sites with a pK of 8.5. Nonspecific binding amounts to less than 10% of [125I]iodo-ANF binding at concentrations less than 100 pM. High affinity binding of [125I]iodo-ANF is reversible with a half-time of association of 15 minutes at 25 pM and a half-time of dissociation of 140 minutes. Monovalent cations Na, Li and K equipotently enhance [125I]iodo-ANF specific binding. Divalent cations Mg, Ca and Mn also increase [125I]iodo-ANF specific binding, with Mn being the most active cation. No effect of guanine nucleotide could be detected on ANF binding. The binding of [125I]iodo-ANF is very specific and is not inhibited by 1 microM angiotensin II, ACTH, VIP, somatostatin, Leu-enkephalin, dynorphin or by the N-terminal of POMC. The N-terminal fragment ANF-(1-16) is also completely inactive. Reduction of the disulfide bridge of ANF inactivates the peptide. This enabled the development of a highly specific radio-receptor assay for ANF with a minimum detectable dose of 2 femtomoles. The results document the specific receptor involved in the potent inhibitory effect of ANF on adrenal steroidogenesis and indicate that bovine adrenal zonal glomerulosa provide a highly sensitive system for studying the recently discovered atrial natriuretic factor.     

High concentrations of a cGMP-stimulated phosphodiesterase mediate ANP-induced decreases in cAMP and steroidogenesis in adrenal glomerulosa cells.

An adrenal cGMP-stimulated phosphodiesterase (cGS-PDE) has been shown to mediate atrial natriuretic peptide (ANP)-induced reductions in aldosterone secretion and cAMP levels in primary bovine glomerulosa cells. High concentrations of cGS-PDE have been localized to the zona glomerulosa cell layer of the adrenal cortex using biochemical and immunological techniques. Immunoblot analysis using an affinity-purified, isozyme-specific antiserum revealed a single band that comigrated with a purified cGS-PDE (105 kDa) (1) and that was most highly concentrated in the outermost 1-2 mm of the cortex, representing the capsule and zona glomerulosa regions. Greater than 90% of the overall phosphodiesterase activity present in tissue extracts prepared from these regions was immunoprecipitated using a solid-phase monoclonal antibody reagent, indicating the cGS-PDE as the predominant phosphodiesterase isozyme. Immunohistochemical staining experiments of frozen thin sections of intact adrenal tissue revealed that the cGS-PDE present in this region was localized in the glomerulosa cells themselves. The role of this isozyme as a mediator of ANP-induced decreases in intracellular cAMP concentrations and aldosterone production was tested in primary cultures of bovine adrenal glomerulosa cells. In cells stimulated by ACTH, ANP treatment produced dose-dependent reductions in aldosterone secretion and cellular cAMP content over the same concentration range. Increases in aldosterone production elicited by three cell-permeable cAMP derivatives (8-bromo-cAMP, 8-p-chlorophenylthio-cAMP, and N6-2'-O-dibutyryl-cAMP) were antagonized by ANP, indicating a site of action distal to adenylate cyclase for this hormone. Because the relative magnitude of the ANP effect differed depending upon the derivative used, the three derivatives were compared with respect to their relative rates of in vitro hydrolysis by adrenal cGS-PDE. A positive correlation between their rates of hydrolysis and the degree to which the steroidogenic response produced by these derivatives was antagonized by ANP was demonstrated, further suggesting an ANP-induced activation of the cGS-PDE as being responsible for this effect. The possible contribution of an additional pathway mediated by an inhibitory guanine nucleotide binding regulatory protein (Gi) acting on adenylate cyclase was tested by pretreatment of primary glomerulosa cells with pertussis toxin. Levels of pertussis toxin sufficient to inhibit subsequent in vitro ribosylation did not significantly alter the ANP effect on aldosterone production, although a partial reduction in the ANP effect on cAMP levels was observed.(ABSTRACT TRUNCATED AT 400 WORDS)