Adrenocorticotrophic hormone: Difference between revisions

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#REDIRECT [[Adrenocorticotropic hormone]]
 
==Secretion==
All of the hormones of the [[anterior pituitary]] gland (the adenohypophysis) are released from endocrine cells that, in mammals, are not directly innervated, yet the release of these hormones remains under the control of the brain. The brain exerts its control over the anterior pituitary gland by means of ''releasing factors'' and ''release-inhibiting factors''; these are blood-borne substances that are released by [[hypothalamus|hypothalamic]] neurones into a system of blood vessels at the base of the brain - at the [[median eminence]]. These vessels, the hypothalamo-hypophysial portal vessels, transport the hypothalamic factors to the adenohypophysis where they bind to specific receptors on the surface of the hormone-producing cells.  This binding triggers the release, from the pituitary endocrine cells, of vesicles containing the hormone by a process of calcium-dependent [[exocytosis]].
 
Early studies showed that when the pituitary is disconnected from the hypothalamus, ACTH output falls. Attempts to localise the hypothalamic source of a releasing factor for ACTH focussed attention upon the [[paraventricular nucleus]], and gave rise to the theory that the peptide [[vasopressin]] might be the releasing factor. When given in large amounts, vasopressin will result in ACTH release; the pituitary corticotrophs express a vasopressin receptor subtype (V1b) which differs pharmacologically from both the vascular (V1a) receptors and the renal (V2) receptors; However the hypothesis that vasopressin was ''the'' releasing factor for ACTH fell from favour when it became clear that:
 
1)  plasma concentrations of ACTH and vasopressin show no consistent correlation; and
 
2) the [[Brattleboro rat]] hypothalamus has high CRF activity but no vasopressin (The Brattleboro rat is a genetic mutant with hereditary [[diabetes insipidus]] resulting from a total inability to synthesize vasopressin).
 
==Corticotropin-releasing hormone==
A 41 amino acid peptide was subsequently isolated and sequenced, that is now recognised as the [[corticotropin-releasing hormone]] (CRH; also known as corticotropin-releasing factor, CRF). This peptide is quite distinct from vasopressin, but is also localised to the paraventricular nucleus. Whereas vasopressin is mainly present in magnocellular neurones which project to the posterior pituitary, CRH is present in parvocellular neurones which project to the external layer of the median eminence, where it is secreted into the portal blood. The CRF neurones contain receptors for glucocorticoids, which exert an inhibitory, negative-feedback control on CRH release and hence on ACTH secretion. Glucocorticoids also suppress ACTH secretion by direct actions on the corticotrophs.
 
However, while CRH is a potent secretagogue for ACTH, its actions are strongly potentiated in the presence of vasopressin, a finding which gave rise to the suggestion that vasopressin and CRF are co-regulators of ACTH secretion.<ref>Gillies G ''et al.'' (1982) Cortocotropin-releasing activity of the new CRH is potentiated several times by vasopressin ''Nature'' 299, 355-7</ref>
 
Following adrenalectomy, which removes the negative feedback effects of circulating [[glucocorticoid]]s, the amount of vasopressin in the external layer of the median eminence increases markedly, and this increase can be prevented by replacement of glucocorticoids but not [[mineralocorticoid]]s; the expression of vasopressin in magnocellular neurones however appeared to be unaffected by [[adrenalectomy]], suggesting that the increased vasopressin in the median eminence must derive from different vasopressin cells.
 
After adrenalectomy, the CRH cells increase their synthesis of CRH, and the CRH-containing terminals in the median eminence increase in number and staining density. Moreover, and importantly, after adrenalectomy about 79% of the CRH neurones in the paraventricular nucleus also begin to express both vasopressin and its mRNA, suggesting that populations of hypothalamic neurones can "switch on" the synthesis of more than one active substance in response to physiological challenges.
 
Thus ACTH secretion is regulated by a subpopulation of the parvocellular neurones in the paraventricular nucleus. This subpopulation consists of neuroendocrine neurosecretory neurones that project to the median eminence; they normally synthesize CRH but can additionally synthesize vasopressin, especially in response to physiological challenge. Vasopressin and CRH are both secretagogues for ACTH, and in combination they have synergistic actions on ACTH release.
 
==References==
<references/>
*Ma X-M, Lightman SL The arginine vasopressin and corticotrophin-releasing hormone gene transcription responses to varied frequencies of repeated stress in rats ''J Physiol'' 510: 605-
 
*Ferrini MG ''et al.'' (1997) Sex difference in glucocorticoid regulation of vasopressin mRNA in the paraventricular hypothalamic nucleus” ''Cell Mol Neurobiol'' 17: 671-86
 
*Kovacs KJ ''et al.'' (1998) Protein synthesis blockade differentially affects the stress-induced transcriptional activation of neuropeptide genes in parvocellular neurosecretory neurons  ''Mol Brain Res'' 54:85-91
 
*Pelton GH ''et al.'' (1997) Repeated stress, like vasopressin, sensitizes the excitatory effects of corticotropin releasing factor on the acoustic startle reflex ''Brain Res'' 19;778:381-7

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