Alpha-human atrial natriuretic polypeptide inhibits 19-hydroxy-androstenedione secretion by human adrenal cells

We investigated the effect of ACTH, angiotensin II (AII), and alpha-human atrial natriuretic polypeptide (alpha-hANP) which plays an important role of water-electrolytes balance, on 19-hydroxyandrostenedione (19-hydroxyandrost-4-ene-3,17-dione, 19-OH-A-dione) secretion by cultured human adrenal cells. 19-OH-A-dione in culture media was measured using a specific RIA. Basal 19-OH-A-dione secretion by adrenal cells was 0.69 +/- 0.08 ng/3h/10(6) cells and significantly rose to 1.17 +/- 0.14 ng/3h/10(6) cells in the presence of ACTH, but not in the presence of A II. These results demonstrate that 196-OH-A-dione is directly secreted from adrenal cells. alpha-hANP significantly inhibited both basal and ACTH-stimulated 19-OH-A-dione secretions, as well as aldosterone. These results demonstrate that alpha-hANP inhibits aldosterone activity by means of the inhibition of both aldosterone and 19-OH-A-dione (an aldosterone amplifier) secretion by adrenal cells.     

Alpha-human natriuretic polypeptide (alpha-hANP) specific binding sites in bovine adrenal gland

The effects of synthetic alpha-human atrial natriuretic polypeptide (alpha-hANP) on steroidogenesis in bovine adrenocortical cells in primary monolayer culture were investigated. alpha-hANP did not inhibit basal aldosterone secretion. alpha-hANP induced a significant dose-dependent inhibition of basal levels of cortisol and dehydroepiandrosterone (DHEA) secretion and also of ACTH (10(-8) M)-stimulated increases in aldosterone, cortisol and DHEA secretion. Visualization of [125I]alpha-hANP binding sites in bovine adrenal gland by an in vitro autoradiographic technique demonstrated that these sites were highly localized in the adrenal cortex, especially the zona glomerulosa. These results suggest that the adrenal cortex may be a target organ for direct receptor-mediated actions of alpha-hANP.     

Atrial and brain natriuretic peptide in adrenal steroidogenesis.

We elucidated the role of atrial natriuretic peptide (ANP) and brain natriuretic peptide (BNP) in human and bovine adrenocortical steroidogenesis. The urinary volume, sodium excretion and cyclic GMP (cGMP) excretion and plasma cGMP were markedly increased by the synthetic alpha-human ANP (alpha-hANP) infusion in healthy volunteers. Plasma arginine vasopressin (AVP) and aldosterone levels were significantly suppressed. Both ANP and BNP inhibited aldosterone, 19-OH-androstenedione, cortisol and DHEA secretion dose-dependently and increased the accumulation of intracellular cGMP in cultured human and bovine adrenal cells. alpha-hANP significantly suppressed P450scc-mRNA in cultured bovine adrenal cells stimulated by ACTH. Autoradiography and affinity labeling of [125I]hANP, and Scatchard plot demonstrated a specific ANP receptor in bovine and human adrenal glands. Purified ANP receptor from bovine adrenal glands identified two distinct types of ANP receptors, one is biologically active, the other is silent. A specific BNP receptor was also identified on the human and bovine adrenocortical cell membranes. The binding sites were displaced by unlabelled ANP as well as BNP. BNP showed an effect possibly via a receptor which may be shared with ANP. The mean basal plasma alpha-hANP level was 25 +/- 5 pg/ml in young men. We confirmed the presence of ANP and BNP in bovine and porcine adrenal medulla. Plasma or medullary ANP or BNP may directly modulate the adrenocortical steroidogenesis. We demonstrated that the lack of inhibitory effect of alpha-hANP on cultured aldosterone-producing adenoma (APA) cells was due to the decrease of ANP-specific receptor, which caused the loss of suppression of aldosterone and an increase in intracellular cGMP.     

Lack of atrial natriuretic peptide receptors in human aldosteronoma

The effect of synthetic alpha-human atrial natriuretic peptide (ANP) on aldosterone secretion was studied in human aldosterone producing adrenocortical adenoma obtained surgically from a patient with primary aldosteronism and in human apparently normal adjacent adrenal cortical tissues obtained from a patient with pheochromocytoma, in vitro. Apparently normal adrenal cortical tissue responded to ANP with the known inhibition of aldosterone secretion. In contrast, the aldosterone producing adenoma did not respond to ANP. When stimulated by either ACTH or angiotensin II, there is no inhibition by ANP in the adenoma tissue, whereas normal tissue was inhibited. Immunohistochemical examination utilizing an ANP-receptor antiserum demonstrated that there was no evidence of binding site in the cortical adenoma, in contrast, zona glomerulosa cells in the cortical tissues adjacent to either aldosterone producing adenoma or pheochromocytoma were densely stained. This apparent lack of ANP-receptors is an associated finding with the hypersecretion of aldosterone in the aldosterone producing adenoma.     

Effects of prostaglandins on adrenal steroidogenesis in the rat

To elucidate the role of prostaglandins in adrenal steroidogenesis, we studied aldosterone and corticosterone responses to 3 x 10(-8) M--3 x 10(-4) M of prostaglandin E2 (PGE2), prostaglandin F2 alpha (PGF2 alpha), prostacyclin (PGI2), and arachidonic acid (AA) in collagenase dispersed rat adrenal capsular and decapsular cells. Whereas adrenocorticotrophic hormone (ACTH) and angiotensin II (AII) stimulated aldosterone production in capsular cells and ACTH stimulated corticosterone production in decapsular cells in a dose dependent fashion, aldosterone and corticosterone production were not stimulated significantly by PGE2, PGF2 alpha, PGI2, and AA. Although preincubation of dispersed adrenal cells with indomethacin (3 x 10(-5) M) markedly inhibited PGE2 synthesis, ACTH- and AII-stimulated aldosterone production and ACTH-stimulated corticosterone production were not attenuated despite prostaglandin blockade. These results indicate that prostaglandins are unlikely to play an important role in adrenal steroidogenesis.     

Inhibition of aldosterone secretion by atrial natriuretic peptide in chicken adrenocortical cells

Dispersed chicken adrenocortical cells were preincubated with atrial natriuretic peptide (rANP), sodium nitroprusside (SNP) or 8-bromo cyclic GMP, followed by incubations with ACTH, chicken PTH, cholera toxin or various steroid intermediates of aldosterone production. Cyclic AMP production and aldosterone secretion were evaluated, in order to determine the sites of ANP inhibition in the sequence of events leading to aldosterone secretion. Dose-dependent inhibitory effects on ACTH-stimulated aldosterone secretion by rANP and SNP were observed. Both agents appeared to stimulate cGMP production by the particulate fraction of the avian adrenocortical cells. Aldosterone production, stimulated by cyclic AMP agonists such as ACTH, chicken PTH and cholera toxin, was significantly inhibited by ANP. On the other hand, ANP did not interfere with production or degradation of cAMP. Each of the aldosterone intermediates--pregnenolone, progesterone, 11-deoxycorticosterone and corticosterone--promoted aldosterone production when included in the incubation media. Atrial natriuretic peptide and SNP inhibited aldosterone secretion when enhanced by the intermediates, by about 40-60%, but the ACTH-stimulated secretion was inhibited by over 90%. The results suggest two sites of inhibition by ANP in the pathway of aldosterone synthesis and secretion: synthesis of cholesterol or pregnenolone, and conversion of corticosterone to aldosterone. The inhibition by 8-bromo cGMP of aldosterone secretion and the similar sites of inhibition for ANP and SNP suggest that cyclic GMP mediates the inhibition in both cases.     

Porcine brain natriuretic peptide, another modulator of bovine adrenocortical steroidogenesis

Porcine brain natriuretic peptide (pBNP) significantly inhibited aldosterone production stimulated by an angiotensin II analog and ACTH-stimulated cortisol secretion, together with simultaneously increasing the formation of cGMP in dispersed bovine adrenocortical cells. Receptors for pBNP were identified in bovine adrenal gland using an in vitro receptor autoradiographic technique and studies of 125I-pBNP binding. In vitro receptor autoradiography demonstrated specific binding sites for 125I-pBNP in bovine adrenal cortex. Complete displacement of 125I-pBNP by unlabeled pBNP or human atrial natriuretic peptide (hANP) can take place at these sites. Analysis of 125I-pBNP binding to bovine adrenocortical membrane fractions showed that the adrenal cortex had high-affinity, low-capacity pBNP-binding sites, with a dissociation constant (Kd) of 2.32 +/- 0.33 x 10(-10) M (mean +/- SE) and a maximal binding capacity (Bmax) of 36.7 +/- 1.6 fmol/mg protein. Moreover, the specific binding sites for 125I-pBNP were completely displaced not only by unlabeled pBNP but also by unlabeled hANP. The hANP dose required for 50% inhibition of specific 125I-pBNP binding was almost identical to that for pBNP (IC50 values for hANP and pBNP: 8.5 x 10(-10) and 6.5 x 10(-10) M, respectively). These results suggest that pBNP exerts a suppressive effect on bovine adrenocortical steroidogenesis via a receptor which may be shared with ANP.     

Alpha-human atrial natriuretic polypeptide binding sites in human adrenal membrane fractions

In a previous study evidence was presented that synthetic alpha-human atrial natriuretic polypeptide (alpha-hANP) significantly inhibits the secretion of aldosterone, cortisol, and dehydroepiandrosterone (DHEA) from cultured human adrenal cells. In the present work using crude membrane fractions prepared from human adrenal tissues obtained at autopsy, we noted the existence and molecular weight of specific binding sites for [125I]alpha-hANP. The mean maximal binding capacity (Bmax) and dissociation constant (Kd) of 4 human adrenal membrane fractions were 8.0 +/- 1.6 fmol/mg protein and 25.7 +/- 7.4 pM, respectively, as calculated by Scatchard plot analysis. The interaction of [125I]alpha-hANP with the high-affinity binding sites in human adrenal membrane fractions was unaffected by the addition of lysine vasopressin (LVP), somatostatin-14 and angiotensin-II (A-II). When the membrane fractions were incubated with [125I]alpha-hANP and then cross-linked with disuccinimidyl suberate (5 mM), the 67,000-Da protein was specifically radiolabeled. The very high affinity of [125I]alpha-hANP binding sites suggests that human adrenal steroidogenesis may be influenced by plasma levels of hANP, under physiological conditions.     

New signal transduction mechanisms of atrial natriuretic factor: inhibition of phosphorylation of protein kinase C and A 240 kDa protein in adrenal cortical plasma membrane by cGMP dependent and independent mechanisms

The effects of synthetic atrial natriuretic factor (ANF) on the state of protein phosphorylation in plasma membranes of bovine adrenal cortex have been studied in vitro. ANF (1x10(-8)M - 1x10(-7)M) specifically inhibited the phosphorylation of two distinct proteins of 78 kDa and 240 kDa. Immunoblotting with specific antiserum to protein kinase C produced evidence that 78 kDa protein is most likely the protein kinase C whose phosphorylation is inhibited by both ANF and cGMP. However, cGMP did not affect the phosphorylation of 240 kDa protein, indicating a new cGMP-independent mechanism of ANF action in the adrenal, which is compatible with the lack of action of cGMP and its analogs in ANF-induced inhibition of aldosterone secretion from adrenal cortex. The inhibition of phosphorylation of putative protein kinase C by ANF or cGMP indicates a hitherto unknown signal transduction mechanism of ANF.     

Effects of prostaglandins on adrenal steroidogenesis in the rat

To elucidate the role of prostaglandins in adrenal steroidogenesis, we studied aldosterone and corticosterone responses to

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of prostaglandin E₂ (PGE₂), prostaglandin F_2α (PGF_2α), prostacyclin (PGI₂), and arachidonic acid (AA) in collagenase dispersed rat adrenal capsular and decapsular cells. Whereas adrenocorticotrophic hormone (ACTH) and angiotensin II (AII) stimulated aldosterone production in capsular cells and ACTH stimulated corticosterone production in decapsular cells in a dose dependent fashion, aldosterone and corticosterone production were not stimulated significantly by PGE₂, PGF_2α, PGI₂, and AA. Although preincubation of dispersed adrenal cells with indomethacin ( ) markedly inhibited PGE₂ synthesis, ACTH- and AII-stimulated aldosterone production and ACTH-stimulated corticosterone production were not attenuated despite prostaglandin blockade. These results indicate that prostaglandins are unlikely to play an important role in adrenal steroidogenesis.     

Bacterial synthesis of recombinant alpha-human atrial natriuretic polypeptide

The high-level synthesis of alpha-human atrial natriuretic polypeptide hormone in Escherichia coli has been achieved based on the idea that the yield of a small, basic and unstable polypeptide, such as the natriuretic polypeptide, would be improved by fusion with an appropriate protective polypeptide to construct a neutral fused polypeptide. We prepared an expression vector, pCLaHtrp3t, coding a neutral polypeptide containing 130 amino acid residues in which the polypeptide hormone was fused to a newly designed protective polypeptide through lysine as an enzymatically cleavable residue. The fused polypeptide was synthesized at the high level of 32% of total cellular proteins and at 4.7 X 10(6) molecules per single cell. It was recovered as cellular insoluble fraction and purified to homogeneity. For the isolation of the peptide hormone from the resultant fused polypeptide, Achromobacter protease I, a lysine-specific endopeptidase was used, because it has sufficient activity even in 8 M urea. The recombinant natriuretic polypeptide was indistinguishable from native alpha-human atrial natriuretic polypeptide as regards amino acid sequence as well as biological activity.     

Bovine adrenal chromaffin granules are a site of synthesis of atrial natriuretic factor

We have previously reported the existence of a peptide factor in the adrenal medulla which inhibits aldosterone secretion in cultured bovine zona glomerulosa cells. The acid extracts of chromaffin granules from bovine adrenal medulla were purified by a four step high performance liquid chromatography procedure. Two active fractions exhibited sequence homology with bovine atrial natriuretic factor ANF (Ser99-Tyr126) and its polypeptide precursor (Asn1-Tyr126). The occurrence of both precursor and mature forms of ANF within chromaffin granules indicates the endogenous character of ANF in the adrenal medulla and suggests the potential usefulness of cultured adrenal chromaffin cells for investigating the synthesis, maturation and secretion of atrial peptides.     

Lack of inhibitory effect of alpha-human atrial natriuretic polypeptide on cortisol secretion in cultured adrenocortical adenoma cells from the patients with Cushing's syndrome

The effects of synthetic alpha-human atrial natriuretic polypeptide (alpha-hANP) on cortisol secretion by adrenocortical adenoma cells from patients with Cushing's syndrome (CS cells) in primary monolayer cultures, compared to cultured normal adrenal cells, were studied. alpha-hANP significantly inhibited cortisol secretion by human normal adrenal cells in culture, but had no direct effect on cortisol secretion from CS cells, in the presence or absence of 10(-8) M ACTH. alpha-hANP enhanced the accumulation of intracellular cyclic GMP in normal adrenal cells in culture, but not in CS cells. Visualization of [125I] iodo-alpha-hANP-specific binding sites by an in vitro receptor autoradiographic technique showed that these sites were lacking in adrenocortical adenoma tissues. These results suggest that the loss of alpha-hANP inhibitory effect on cortisol secretion in CS cells may be due to the absence of alpha-hANP receptor sites.     

Effect of native and synthetic atrial natriuretic factor on cyclic GMP

Mammalian atrial cardiocyte granules contain a potent natriuretic and diuretic peptide. Since cGMP appears to be involved in the modulation of cholinergic and toxin-induced sodium transport, we examined the effect of atrial natriuretic factor (ANF) on this nucleotide. Atrial but not ventricular extracts elicited approximately a 28-fold increase of urinary cGMP excretion parallel to the natriuresis and diuresis. The atrial extracts also elevated cGMP levels in kidney slices and primary cultures of renal tubular cells. The effect of ANF on cGMP appeared to be specific since antibodies which were capable of inhibiting the ANF-induced diuresis also suppressed cGMP excretion. Furthermore, during the course of ANF purification, the ANF-induced increase of cGMP production by kidney cells paralleled the heightened specific natriuretic activity of the atrial factor. A synthetic peptide (8-33)-ANF similarly increased urinary plasma and kidney tubular cGMP levels. The exact mechanism of action of ANF on cGMP remains to be elucidated, but indirect inhibition of cGMP phosphodiesterase appears to participate in its effect.     

Brain natriuretic peptide interacts with atrial natriuretic peptide receptor in cultured rat vascular smooth muscle cells

The effect of synthetic porcine brain natriuretic peptide (pBNP), a novel brain peptide with sequence homology to alpha-human atrial natriuretic peptide (hANP), on receptor binding and cGMP generation, was studied in cultured rat vascular smooth muscle cells (VSMC) and compared with that of alpha-hANP. 125I-pBNP bound to the cells in a time-dependent manner similar to that of 125I-alpha-hANP. Scatchard analysis indicated a single class of binding sites for pBNP with affinity and capacity identical to those of alpha-hANP. pBNP and alpha-hANP were almost equipotent in inhibiting the binding of either radioligand and stimulating intracellular cGMP generation. These data indicate that BNP and ANP interact with the same receptor sites to activate guanylate cyclase in rat VSMC.     

Regulation of cGMP production by intracellular alkalinization in cultured rat inner medullary collecting duct cells

We evaluated the relationship between cell pH and cGMP production in cultured rat renal inner medullary collecting duct cells. The cGMP level, 21 +/- 6, was not different in control vs. alkalinized cells, 49 +/- 17 fmol/mg protein (p greater than 0.5). 10(-11) M atrial natriuretic peptide (ANF) enhanced cGMP production in alkalinized cells, 426 +/- 34 vs. 141 +/- 9*. Conversely, alkalinization inhibited 10(-4)M nitroprusside (SNP) induced cGMP formation, 29 +/- 9 vs. 332 +/- 67*. Phosphodiesterase inhibition abolished the difference in cGMP production by ANF but did not reverse the inhibitory effect of alkalinization on SNP induced cGMP production. In rat renal inner medullary collecting duct cells, cellular alkalinization plays a significant role in the regulation of guanylate cyclase mediated cGMP production. * = p less than 0.05).     

C-type natriuretic peptide is a growth inhibitor of rat vascular smooth muscle cells.

C-type natriuretic peptide (CNP) which potently stimulates particulate guanylate cyclase activity in cultured rat vascular smooth muscle cells (VSMC) inhibited serum-induced DNA synthesis of the cells 10-fold more effectively than alpha-human atrial natriuretic peptide (alpha-hANP). The inhibitory effect of CNP was mimicked by 8-bromo-cGMP. The proliferation of VSMC was also suppressed by CNP more potently than alpha-hANP, while the peptide was less active for cGMP augmentation and for vasorelaxation than alpha-hANP in isolated rat aorta. These results suggest that CNP may be a growth regulating factor of VSMC rather than a vasodilator.     

Human alpha atrial natriuretic peptide inhibits angiotensin stimulated aldosterone biosynthesis in bovine adrenal glands

The behaviour of aldosterone output was evaluated in isolated and superfused bovine adrenal glands during superfusion with human alpha atrial natriuretic peptide on its own or with angiotensin II or a antagonist dopaminergic drug: metoclopramide. H alpha-ANP even in high concentrations did not reduce the basal amount of aldosterone released from bovine adrenal glands, nor did it modify aldosterone response to metoclopramide, but it partially inhibited aldosterone stimulation by angiotensin II. These data suggest that atrial natriuretic factor may affect sodium secretion through the modulation of aldosterone secretion.     

cGMP-dependent protein kinase type II regulates basal level of aldosterone production by zona glomerulosa cells without increasing expression of the steroidogenic acute regulatory protein gene

The renin-angiotensin-aldosterone system plays a pivotal role in the regulation of salt and water homeostasis. Here, we demonstrate the expression and functional role of cGMP-dependent protein kinases (PKGs) in rat adrenal cortex. Expression of PKG II is restricted to adrenal zona glomerulosa (ZG) cells, whereas PKG I is localized to the adrenal capsule and blood vessels. Activation of the aldosterone system by a low sodium diet up-regulated the expression of PKG II, however, it did not change PKG I expression in adrenal cortex. Both, activation of PKG II in isolated ZG cell and adenoviral gene transfer of wild type PKG II into ZG cells enhanced aldosterone production. In contrast, inhibition of PKG II as well as infection with a PKG II catalytically inactive mutant had an inhibitory effect on aldosterone production. Steroidogenic acute regulatory (StAR) protein that regulates the rate-limiting step in steroidogenesis is a new substrate for PKG II and can be phosphorylated by PKG II in vitro at serine 55/56 and serine 99. Stimulation of aldosterone production by PKG II in contrast to stimulation by PKA did not activate StAR gene expression in ZG cells. The results presented indicate that PKG II activity in ZG cells is important for maintaining basal aldosterone production.     

Effect of atrial natriuretic peptide on ACTH, dibutyryl cAMP, angiotensin II and potassium-stimulated aldosterone secretion by rat adrenal glomerulosa cells

We examined the effect of rat atrial natriuretic peptide (ANP) on ACTH, dibutyryl cAMP, angiotensin II and potassium-stimulated aldosterone secretion by dispersed rat adrenal glomerulosa cells. ANP inhibited ACTH, angiotensin II and potassium-stimulated aldosterone secretion with IC50's between 0.15-0.20 nM. Inhibition by 10 nM ANP could not be overcome with higher concentrations of these stimuli. ANP shifted the dibutyryl cAMP dose-response curve slightly to the right but did not blunt the maximal aldosterone secretory response. The sites of ANP inhibition in the aldosterone biosynthetic pathway for these stimuli were also examined. ANP inhibited activation of the cholesterol desmolase (CD) enzyme complex by ACTH, angiotensin II and potassium. Activation of the corticosterone methyl oxidase (CMO) enzyme complex by potassium was inhibited by ANP, however, activation by ACTH was not blocked. We concluded that: 1) ANP is a potent inhibitor of ACTH, angiotensin II and potassium-stimulated aldosterone secretion; 2) inhibition of ACTH stimulation is primarily due to lower cAMP levels and; 3) inhibition of angiotensin II and potassium stimulation reflects a block in the activating mechanism of the CMO and/or CD enzyme complexes, whereas CD but not CMO activation by ACTH is inhibited by ANP.