1,721,065 research outputs found
Acute effects of orexins A and B on the rat pituitary-adrenocortical axis
No full textOrexins A and B are hypothalamic peptides, which act through two receptor subtypes, called OX1R and OX2R. They belong to a group of neuropeptides involved in the central regulation of food intake, members of which (neuropeptide Y and leptin) are known to modulate the function of the pituitary-adrenocortical axis (PAA). We examined the effects at 60 and 120 min of a subcutaneous injection of 5 or 10 nmol/kg of orexins on the function of the rat PAA. Orexin-A raised plasma concentrations of ACTH, aldosterone and corticosterone at both 60 and 120 min, corticosterone response being the most intense one. Orexin-B evoked a sizeable decrease in the plasma level of ACTH, without changing that of corticosterone. The effect of orexin-B on aldosterone plasma concentration was biphasic, the lower dose decreasing and the higher one increasing it at both 60 and 120 min. Evidence indicates that OX1R binds both orexins, while OX2R is selective for orexin-B, and that only OX2R is present in the hypothalamic nucleus paraventricularis. On these grounds, our findings allow us to conclude: (i) OX1R stimulates and OX2R inhibits rat PAA; (ii) orexin-A stimulates PAA, the activation of OX1R prevailing over that of OX2R, while orexin-B suppresses PAA function; and (iii) the aldosterone-secreting response to the higher dose of orexin-B may probably be ascribed to the activation of one or more extra-PAA mechanisms enhancing secretory activity of the zona glomerulosa
Orexins stimulate corticosterone secretion of rat adrenocortical cells, through the activation of the adenylate cyclase-dependent signaling cascade.
No full textOrexins-A and B are two novel hypothalamic peptides, which, like leptin and neuropeptide-Y (NPY), are involved in the central regulation of feeding. Since leptin and NPY were found to modulate adrenal function, we have examined whether orexins are able to directly affect rat adrenal steroid secretion. Both orexin-A and orexin-B raised basal corticosterone secretion of dispersed rat zona fasciculata-reticularis (ZF/R) cells, their maximal effective concentration being 10(-8) M. In contrast, orexins did not affect either maximally ACTH (10(-9) M)-stimulated corticosterone production by ZF/R cells or the basal and agonist-stimulated aldosterone secretion of dispersed zona glomerulosa cells. The ACTH-receptor antagonist corticotropin-inhibiting peptide (10(-6) M) annulled corticosterone response of ZF/R cells to ACTH (10(-9) M), but not to orexins (10(-8) M). Orexins (10(-8) M) enhanced cyclic-AMP release by ZF/R cells, and the selective inhibitor of protein-kinase A (PKA) H-89 (10(-5) M) abolished corticosterone responses to both ACTH (10(-9) M) and orexins (10(-8) M). A subcutaneous injection of both orexins (5 or 10 nmol/kg) evoked a clear-cut increase in the plasma concentration of corticosterone (but not aldosterone), the effect of orexin-A being significantly more intense than that of orexin-B. Collectively, these findings suggest that orexins exert a selective and direct glucocorticoid secretagogue action on the rat adrenals, acting through a receptor-mediated activation of the adenylate cyclase/PKA-dependent signaling pathway
Endothelins stimulate deoxyribonucleic acid synthesis and cell proliferation in rat adrenal zona glomerulosa, acting through an endothelin A receptor coupled with protein kinase C- and tyrosine kinase-dependent signaling pathways.
No full textEndothelin-1 stimulates rat pituitary-adrenocortical axis acting through both ETA and ETB receptor subtypes
No full textUp-regulation of adrenomedullin receptor gene expression in activated local stem cells during rat adrenal regeneration.
No full textPrevious studies showed that adrenomedullin (AM) gene expression was up-regulated in the regenerating rat adrenal cortex after enucleation and contra-lateral adrenalectomy, the effect being significant at day 1 after surgery and peaking between days 3 and 7. Using the same experimental model, we investigated by real time-polymerase chain reaction the mRNA expression of the AM receptor components: calcitonin receptor-like receptor (CRLR) and receptor activity-modifying proteins (RAMP)2 and 3. At time 0 (60 min after enucleation; control group), the CRLR mRNA content was approximately 2- and 5-fold higher than that of RAMP2 and RAMP3, respectively. No significant changes in CRLR mRNA expression were observed in relation to the time elapsed from enucleation. RAMP2 and RAMP3 mRNAs did not exhibit significant changes at day 1 after surgery, but underwent a marked increase between days 3 and 7. The mRNA content of the two RAMPs decreased at days 14 and 28, although remaining significantly higher than that of the controls. These findings indicate that the AM receptor subtypes AM1-R (CRLR-RAMP2) and AM2-R (CRLR-RAMP3) are up-regulated in enucleated adrenals, and the hypothesis is advanced that this effect depends on the increased local production of AM. The concerted increase in AM and its receptor expression would greatly improve the autocrine-paracrine mechanism(s) by which AM favors proliferation of zona glomerulosa stem cells during adrenal regeneration
Prolonged administration of leptin inhibits proliferation and stimulates apoptosis in the rat adrenal gland
No full textLeptin, the product of the ob gene, is an adipose tissue-secreted hormone, which acts to decrease caloric intake and to increase energy expenditure. Some of the leptin effects on energy balance are known to be mediated by the hypothalamo-pituitary-adrenal axis. Chronic leptin administration has been found to inhibit pituitary ACTH release and to cause adrenal atrophy in the rat. However, the mechanisms involved in this last effect of leptin are not yet settled. Adult female rats received daily subcutaneous injections of leptin[1-147] and its fragment 116-130 at a dose of 20 nmol/kg • day for 6 consecutive day, and the effect on the proliferative activity and apoptotic rate of adrenocortical cells were studied by the proliferating-cell nuclear antigen (PCNA)-immunostaining and in situ TUNEL assay technique, respectively. Leptin chronic administration lowered adrenal weight and decreased PCNA-index in the zona glomerulosa, leptin[116-130] being more effective than leptin[1-147]. Both leptins raised apoptotic-index in the zona fasciculata and to a lesser extent in the zona reticularis. Collectively, the present findings indicate that chronic leptin treatment inhibits proliferation and enhances apoptosis in the rat adrenal cortex, these effects being responsible for the adrenal atrophy and possibly consequent to the leptin-induced inhibition of pituitary ACTH release
The AT2 receptor-mediated stimulation of adrenal catecholamine release may potentiate the AT1 receptor-mediated aldosterone secretagogue action of angiotensin-II in rats
No full textPancreatic polypeptide stimulates rat adrenal glucocorticoid secretion by activating the adenylate cyclase-dependent signaling pathway
No full textEffects of glucagon and glucagon-like peptide-1 on glucocorticoid secretion of dispersed rat adrenocortical cells.
No full textThe effects of glucagon and glucagon-like peptide-1 (GLP-1) on the secretory activity of rat adrenocortical cells have been investigated in vitro. Neither hormones affected basal or agonist-stimulated aldosterone secretion of dispersed rat zona glomerulosa cells or basal corticosterone production of zona fasciculata-reticularis (inner) cells. In contrast, glucagon and GLP-1 partially (40%) inhibited ACTH (10(-9) M)-enhanced corticosterone secretion of inner cells, maximal effective concentration being 10(-7) M. The effect of 10(-7) M glucagon or GPL-1 was suppressed by 10(-6) M Des-His1-[Glu9]-glucagon amide (glucagon-A) and exendin-4(3-39) (GPL-1-A), which are selective antagonists of glucagon and GLP-1 receptors, respectively. Glucagon and GLP-1 (10(-7) M) decreased by about 45-50% cyclic-AMP production by dispersed inner adrenocortical cells in response to ACTH (10(-9) M), but not to the adenylate cyclase activator forskolin (10(-5) M). Again this effect was blocked by 10(-6) M glucagon-A or GLP-1-A. The exposure of dispersed inner cells to 10(-7) M glucagon plus GLP-1 completely suppressed corticosterone response to ACTH (10(-9) M). However, they only partially inhibited (by about 65-70%) both corticosterone response to forskolin (10(-5) M) or dibutyryl-cyclic-AMP (10(-5) M) and ACTH (10(-9) M)-enhanced cyclic-AMP production. Quantitative HPLC showed that 10(-7) M glucagon or GLP-1 did not affect ACTH-stimulated pregnenolone production, evoked a slight rise in progesterone and 11-deoxycorticosterone release, and markedly reduced (by about 55%) corticosterone secretion of dispersed inner adrenocortical cells. In light of these findings the following conclusion are drawn: (i) glucagon and GLP-1, via the activation of specific receptors, inhibit glucocorticoid response of rat adrenal cortex to ACTH; and (ii) the mechanism underlying the effect of glucagon and GLP-1 is probably two-fold, and involves both the inhibition of the ACTH-induced activation of adenylate cyclase and the impairment of the late steps of glucocorticoid synthesis
Expression and function of adrenomedullin and its receptors in Conn's adenoma cells
No full textAdrenomedullin (ADM) is a hypotensive peptide, that derives from the proteolytic cleavage of pro(p)ADM and acts through two subtypes of receptors, called L1-receptor (L1-R) and calcitonin receptor-like receptor (CRLR). CRLR may function as a calcitonin gene-related peptide or a selective ADM receptor depending on the expression of the subtype 1 or the subtypes 2 and 3 of a family of proteins, named receptor-activity modifying proteins (RAMPs). Reverse transcription (RT)-polymerase chain reaction (PCR) allowed the detection of pADM mRNA in dispersed cells of eight Conn's adenomas (aldosteronomas). These cells also expressed peptidyl-glycine α-amidating monooxigenase, the enzyme converting immature ADM to the mature form, and contained sizeable amounts of ADM-immunoreactivity as measured by radioimmunoassay. RT-PCR also demonstrated the presence in aldosteronoma cells of the specific mRNAs of L1-R, CRLR and RAMPs 1-3. ADM (10-8 M) inhibited angiotensin-II (10-9 M)-simulated aldosterone secretion from cultured aldosteronoma cells, without affecting basal production. ADM (10-8 M) also enhanced basal proliferation rate of cultured cells, as estimated by the 5-bromo-2'-deoxyuridine immunocytochemical technique. Both effects of ADM were annulled by the ADM-receptor selective antagonist ADM22-52 (10-7 M). In conclusion, our study provides evidence that aldosteronoma cells express both ADM and ADM22-52-sensitive receptors. These findings, coupled with the demonstration that ADM exerts an aldosterone antisecretagogue action and a proliferogenic effect on cultured aldosteronoma cells, make it likely that endogenous ADM system plays a potentially important role in the paracrine or autocrine functional control of Conn's adenomas
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