Dopaminergic stimulation of cortisol secretion from bovine zfr cells occurs through nonspecific stimulation of adrenergic beta-receptors.

Previous reports have suggested a possible dopaminergic inhibition of the actions of AII on aldosterone secretion via adenylate-cyclase inhibitory 'D2' receptors. Others suggest a possible stimulation of aldosterone secretion via a stimulatory 'D1' receptor/cAMP pathway. We have examined the actions of dopamine on basal and AII-stimulated cortisol secretion by cultured bovine zfr cells. Dopamine alone caused a dose-dependent increase in cortisol secretion at doses >10(-5) M, and also enhanced steroidogenic output in response to submaximal (10(-10) M) but not maximal (10(-8) M) stimulatory doses of AII. The stimulatory action of dopamine alone on cortisol secretion was not, however, reproduced by the 'D1' agonist fenoldopam, and was fully blocked by propranolol. Dopamine had neither a stimulatory effect on basal phosphoinositol production nor an inhibitory effect on AII-stimulated phosphoinositol production. Our findings are therefore inconsistent with the activation of a 'D1' or 'D2' class receptor, and suggest the stimulation of cortisol secretion occurred nonspecifically through a beta-adrenergic receptor.

Polymerase chain reaction heteroduplex polymorphism analysis by entangled solution capillary electrophoresis.

Heteroduplex DNA polymorphism analysis (HPA) makes use of conformational polymorphisms to alter electrophoretic mobility of fragments and can be used to detect non-restrictable loci. We have developed a novel application of entangled solution capillary electrophoresis (ESCE) to separate heteroduplex and homoduplex DNA molecules. The addition of ethidium bromide and glycerol to the free solution sieving buffer resulted in the improved peak resolution and good reproducibility. Reannealed polymerase chain reaction products could be used directly for mutation screening and with fully automated ESCE the entire HPA may be completed in less than 30 min including sample handling. This technology could provide a rapid and highly efficient way for screening rare mutations among large numbers of individuals.

Further characterization of the steroidogenic responsiveness of purified zona fasciculata/reticularis cells from bovine adrenal cortex before and after primary culture: changing responsiveness to phosphoinositidase C agonists.

When bovine adrenocortical cells from the zona fasciculata/reticularis (zfr) are maintained in primary culture, cortisol secretion in response to acute stimulation with ACTH and adrenaline (which activate adenylate cyclase) is seen to increase steadily over the first 48 h, while secretion in response to angiotensin II and acetylcholine (which activate phosphoinositidase C) shows an initial decline in the first 24 h and a recovery to maximum after 48 h. We have investigated whether these discrepant changes in cortisol secretory response to the different agonists are due to changes in formation of the associated second messengers (cAMP or inositol phosphates), or altered coupling of these second messenger signals to steroid secretion. Increases in steroid secretion in response to ACTH and adrenaline were paralleled by increased cAMP. Steroid secretion in response to exogenous 8-bromoadenosine 3':5'-cyclic monophosphate also increased steadily during this 48-h period. Thus increased responsiveness was due to both increased second messenger formation and increased coupling to the steroid secretory response. The decreased steroid secretory response to angiotensin and acetylcholine after 24 h, and subsequent recovery after 48 h in culture, were accompanied by an increased formation of phosphoinositols after 24 h and a further increase by 48 h. However, the steroid secretory response to a combination of calcium ionophore and the protein kinase C activator, phorbol 12-myristate 13-acetate, was reduced after 24 h and recovered by 48 h of culture. Fura-2-loaded cells also showed an increase in intracellular [Ca2+] after 24 h in culture.(ABSTRACT TRUNCATED AT 250 WORDS)

Adrenergic and cholinergic regulation of cortisol secretion from the zona fasciculata/reticularis of bovine adrenal cortex.

Inner zone cells, isolated from bovine adrenal cortex, secrete cortisol in response to both adrenergic and cholinergic agonists. The response to adrenaline (and other catecholamines) appears during culture, is evident by 24 h and reaches a maximum by 48-72 h, but is absent in freshly isolated cells. Pre-incubation of cultured cells with adrenaline leads to homologous desensitisation; the possibility that this may explain the absent response in freshly isolated cells is discussed. Cells show a dose-dependent cyclic AMP response but no increased membrane phosphoinositide turnover. In agreement, cortisol secretion is blocked by beta-receptor, but not alpha-receptor, antagonists. Schild analysis established that the response occurs through binding to a beta 1-receptor subtype, consistent with adrenergic innervation as opposed to an effect of circulating catecholamines. In contrast, cortisol secretion to AcCh was present in both freshly isolated cells and those in culture, reaching a maximum by 48-72 h in culture. The response was specifically blocked by muscarinic, but not nicotinic, antagonists. No effect on cyclic AMP formation was observed, but dose-dependent stimulation of phosphoinositide turnover occurred. HPLC analysis of the time-course of appearance of 3H-inositol labelled head groups (from cells pre-labelled with 3H-inositol) confirmed that AcCh activates a phosphoinositidase C. Intracellular Ca2+ oscillations were also measured from fura-2 loaded single cells in response to AcCh. Together with other pharmacological studies, these observations establish that AcCh acts through a M3 muscarinic receptor subtype in these cells. The possible significance of these findings in vivo is discussed.

Acetylcholine stimulates cortisol secretion through the M3 muscarinic receptor linked to a polyphosphoinositide-specific phospholipase C in bovine adrenal fasciculata/reticularis cells.

Zona fasciculata/reticularis (ZFR) cells, isolated from the bovine adrenal cortex, secreted cortisol in response to acetylcholine (AcCh). The response was present in freshly isolated cells and in cells maintained in primary culture, reaching a maximum after 48-72 h and thereafter declining. Cells maintained in primary culture for 72 h secreted cortisol with an ED50 at 1.2 x 10(-6) M. The potent inhibition of AcCh-stimulated secretion by atropine, and the relative ineffectiveness of nicotine or nicotinic antagonists, were consistent with a predominantly muscarinic response to AcCh in these cells. A selective M1-receptor agonist, McN-A-343, had no effect on cortisol secretion whereas the M3 antagonist, hexahydro-sila-difenidol, produced a dose-dependent inhibition of AcCh-stimulated cortisol secretion. These findings are consistent with AcCh mediating its effects on cortisol secretion through an M3 receptor. While AcCh had no effect on cAMP formation, a dose-dependent increase in [3H]phosphoinositols (identified using high-performance liquid chromatography (HPLC)) occurred in a manner that was not dependent on an influx of extracellular Ca2+. Detailed HPLC analysis of the formation of 3H-labelled phosphoinositols and glycerophosphoinositols from pre-labelled cells over the period 0-15 min showed that the earliest significant rise was in Ins(1,4,5)P3 at 5 s, followed by later rises in InsP1, InsP2 and Ins(1,3,4)P3. Additional studies using cells loaded with fura-2 indicator revealed a 1.6-fold increase in [Ca2+]i from a mean resting value of 75 nM in response to 10(-4) M AcCh. Furthermore, the rise in Ca2+ was not abolished by lowering extracellular Ca2+ to resting cytosolic levels, suggesting the mobilisation of an intracellular pool. These observations indicate that AcCh promotes rapid activation of a Ca2(+)-independent and polyphosphoinositide-specific phospholipase C, and that the Ins(1,4,5)P3 formed releases Ca2+ from an intracellular pool. The stimulation by AcCh of this signal transduction mechanism is consistent with our conclusion, based on the effects of the selective muscarinic agonist and antagonist on cortisol secretion, that the AcCh receptor is of the M3 subtype. We conclude that AcCh, acting through an M3 receptor coupled to phospholipase C, regulates cortisol secretion at the cellular level in bovine adrenal ZFR cells.

Subclassification of beta-adrenoceptors responsible for steroidogenesis in primary cultures of bovine adrenocortical zona fasciculata/reticularis cells.

1. Forty eight hour primary cultures of purified bovine adrenocortical zona fasciculata/reticularis cells secreted hydrocortisone in response to stimulation with beta-adrenoceptor agonists. The observed order of potency was isoprenaline greater than noradrenaline greater than dobutamine greater than salbutamol greater than BRL37344. 2. Salbutamol acted as a partial agonist on these cells hence suggesting the presence of a beta 1-adrenoceptor. 3. Schild analysis of the hydrocortisone response to isoprenaline showed that the selective beta 1-antagonist practolol and the selective beta 2-antagonist ICI118,551 gave pA2 values of 6.85 and 7.17, respectively. These values were in close agreement with corresponding pA2 values previously obtained for the beta 1-adrenoceptor. 4. We conclude that beta 1-adrenoceptors are responsible for mediating catecholamine-stimulated hydrocortisone secretion from primary cultures of bovine zona fasciculata/reticularis cells.

Characterization of the steroidogenic responsiveness and ultrastructure of purified zona fasciculata/reticularis cells from bovine adrenal cortex before and after primary culture.

Analysis by electron microscopy indicated that after 3 days of primary culture, purified bovine adrenal zonal fasciculata/reticularis (ZF/ZR) cells showed improved integrity of their ultrastructure, with an increased density of lipid droplets and smooth endoplasmic reticulum. The basal cortisol output was significantly (P less than 0.05) greater on day 3 of culture than for the freshly isolated cells in six out of seven experiments. Similarly, in six experiments with ACTH (1 nmol/l) and five experiments with angiotensin II (10 nmol/l), the stimulated cortisol secretion was significantly (P less than 0.01 for all 11 experiments) higher on day 3 of culture than in freshly isolated cells. No significant increase in cortisol secretion above basal was observed with noradrenaline at any concentration in the freshly isolated cells, whereas a dose-dependent increase in cortisol secretion was observed on day 3 of culture in all of four experiments. These findings were supported by cyclic (c) AMP output measured in one such experiment. Thus the basal cAMP output and that stimulated by ACTH (1 nmol/l) were significantly higher after culture (P less than 0.001, n = five wells for basal comparison; P less than 0.05, n = three wells for ACTH at 1 nmol/l). In agreement with the cortisol results, cAMP production was unaffected by any concentration of noradrenaline in the freshly isolated cells, whereas a dose-dependent rise was found after culture. Angiotensin II at all concentrations had no effect on cAMP production in freshly isolated or cultured cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Catecholamine stimulation of cortisol secretion by 3-day primary cultures of purified zona fasciculata/reticularis cells isolated from bovine adrenal cortex.

Primary cultures of zona fasciculata/reticularis cells derived from bovine adrenal cortex secreted cortisol and corticosterone in response to isoprenaline, noradrenaline and adrenaline on the third day of culture. The potency order was isoprenaline greater than noradrenaline, adrenaline with an ED50 for all three agonists within the range 1-5 x 10(-8) M. A dose-dependent increase in medium content of cyclic AMP was also observed. Secretion of cortisol in response to these catecholamines was specifically blocked by propranolol but unaffected by phentolamine. The beta-agonist effect on cortisol secretion was specifically and progressively reduced, in a time- and dose-dependent manner, by pre-incubation of the cells with adrenaline.