UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We studied the putative role of the vasopressin receptors in the phenotypic response of steroid-secreting adrenocortical tumors. A retrospective analysis of a series of 26 adrenocortical tumors responsible for Cushing's syndrome (19 adenomas and 7 carcinomas) showed that vasopressin (10 IU, i.m., lysine vasopressin) induced an ACTH-independent cortisol response (arbitrarily defined as a cortisol rise above baseline of 30 ng/mL or more) in 7 cases (27%). In comparison, 68 of 90 patients with Cushing's disease (76%) had a positive cortisol response. We then prospectively examined the expression of vasopressin receptor genes in adrenocortical tumors of recently operated patients (20 adenomas and 19 adrenocortical carcinomas). We used highly sensitive and specific quantitative RT-PCR techniques for each of the newly characterized human vasopressin receptors: V1, V2, and V3. The V1 messenger ribonucleic acid (mRNA) was detected in normal adrenal cortex and in all tumors. Its level varied widely between 2.0 x 10(2) and 4.4 x 10(5) copies/0.1 microgram total RNA, and adenomas had significantly higher levels than carcinomas, although there was a large overlap. Among the 6 recently operated patients who had been subjected to the vasopressin test in vivo, the tumor V1 mRNA levels were higher in the 4 responders (9.5 x 10(3) to 5.0 x 10(4)) than in the 2 nonresponders (2.0 x 10(2) and 1.8 x 10(3)). One adenoma that had a brisk cortisol response in vivo, also had in vitro cortisol responses that were inhibited by a specific V1 antagonist. In situ hybridization showed the presence of V1 mRNA in the normal human adrenal cortex where the signal predominated in the compact cells of the zona reticularis. A positive signal was also present in the tumors with high RT-PCR V1 mRNA levels; its distribution pattern was heterogeneous and showed preferential association with compact cells. RT-PCR studies for the other vasopressin receptors showed a much lower signal for V2 and no evidence for V3 mRNA. We could not establish whether the V2 mRNA signal observed in normal and tumoral specimens was present within adrenocortical cells or merely within tissue vessels. We conclude that the vasopressin V1 receptor gene is expressed in normal and tumoral adrenocortical cells. High, and not ectopic, expression occurs in a minority of tumors that become directly responsive to vasopressin stimulation tests.
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PMID:Variable expression of the V1 vasopressin receptor modulates the phenotypic response of steroid-secreting adrenocortical tumors. 962 35

A retrospective analysis of 26 adrenocortical tumors responsible for Cushing's syndrome showed that vasopressin induced an ACTH-independent cortisol response in seven cases (27%). In comparison 68 of 90 patients with Cushing's disease (76%) had a positive cortisol response. The mRNA for the V1-type vasopressin receptor was detected in normal adrenal cortex and in all tumors, and adenomas had higher levels than carcinomas. One adenoma which had a brisk cortisol response in vivo, also had in vitro cortisol responses that were inhibited by a specific V1 antagonist. In situ hybridization showed the presence of V1 mRNA in the normal and tumoral adrenal cortex. We conclude that the vasopressin V1 receptor gene is expressed in normal and tumoral adrenocortical cells. High--and not ectopic--expression occurs in a minority of tumors which become directly responsive to vasopressin stimulation.
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PMID:[Membrane receptors and endocrine tumors: expression of vasopressin receptor V1 modulates the pharmacologic phenotype of adrenocortical tumors]. 964 45

We have examined the expression profiles of the different vasopressin receptors (V1, V2, V3) that can be expressed in the three different types of tumors associated with Cushing's syndrome. V3 (V1b) receptor cDNA was cloned from a pituitary tumor responsible for Cushing's disease. We show that it is overexpressed in these tumors and can respond to DD-AVP. High expression of the V3 receptor on highly differentiated, ACTH-secreting, bronchial carcinoid tumors explain why these non-pituitary tumors occasionally respond to vasopressin, mimicking a "pituitary-like" behavior. A retrospective analysis showed that vasopressin induced an ACTH-independent cortisol rise in 27% of the adrenocortical tumors responsible for Cushing's syndrome. V1 mRNA was detected in normal adrenal cortex and in all tumors. Adenomas had significantly higher levels than carcinomas. V1 mRNA levels were higher in responders than in non-responders. One adenoma which had a brisk cortisol response in vivo, also had in vitro cortisol responses that were inhibited by a specific V1 antagonist. In situ hybridization showed the presence of V1 mRNA in the normal human adrenal cortex where the signal predominated in the compact cells of the zona reticularis. A positive signal was also present in the tumors with high V1 mRNA levels determined by RT-PCR; its distribution pattern was heterogeneous and showed preferential association with compact cells. High-and not ectopic-expression of the V1 receptor occurs in a minority of adrenal cortical tumors which become directly responsive to vasopressin stimulation.
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PMID:Vasopressin receptors modulate the pharmacological phenotypes of Cushing's syndrome. 988 81

The initial description of GIP-dependent Cushing's syndrome suggested that abnormal or ectopic expression of adrenal receptors for various ligands may underlie other cases of ACTH-independent hypercortisolism. GIP-dependent Cushing's syndrome has been described in patients with unilateral adenomas or bilateral ACTH-independent macronodular adrenal hyperplasia (AIMAH) and results from the adrenal overexpression of non-mutated GIP receptor. In AIMAH, other patients were identified in whom regulation of cortisol production resulted from an abnormal adrenocortical response either to vasopressin, beta-adrenergic receptor agonists, hCG/LH, or serotonin 5-HT-4 receptor agonists. The identification of the presence of an abnormal adrenal receptor offers the possibility of a new pharmacological approach to control hypercortisolism by suppressing the endogenous ligands or by using specific antagonists of the abnormal receptor.
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PMID:Abnormal expression and function of hormone receptors in adrenal Cushing's syndrome. 988 84

Secretin, glucagon, gastric inhibitory polypeptide (GIP), and parathyroid hormone (PTH) belong, together with vasoactive intestinal peptide (VIP) and pituitary adenylate cyclase (AC)-activating polypeptide, to a family of peptides (the VIP-secretin-glucagon family), which also includes growth hormone-releasing hormone and exendins. All the members of this peptide family possess a remarkable amino-acid sequence homology, and bind to G-protein-coupled receptors, whose signaling mechanism primarily involves AC/protein kinase A and phospholipase C/protein kinase C cascades. VIP and pituitary AC-activating polypeptide play a role in the regulation of the hypothalamus-pituitary-adrenal (HPA) axis, and in this review we survey findings that also other members of the VIP-secretin-glucagon family may have the same function. Secretin and secretin receptors are expressed in the hypothalamus and pituitary gland, and secretin inhibits adrenocorticotropic hormone (ACTH) release. No evidence is available for the presence of secretin receptors in adrenal glands, but secretin selectively depresses the glucocorticoid response to ACTH of dispersed zona fasciculata-reticularis (ZF/R) cells. Glucagon and glucagon-like peptide-1 are contained in the hypothalamus, and all the components of the HPA axis are provided with glucagon and glucagons-like-1 receptors. These peptides exert a short-term inhibitory effect on stress-induced pituitary ACTH release and depress the ZF/R cell response to ACTH by inhibiting the AC/protein kinase A cascade; they also stimulate hypothalamic arginine-vasopressin release. GIP receptors are present in the ZF/R of the normal adrenals, and are particularly abundant in some types of adrenocortical adenomas and hyperplasias. GIP, through the activation of the AC/protein kinase A cascade, evokes a sizeable glucocorticoid secretagogue effect, leading to the identification of a food/GIP-dependent Cushing's syndrome. PTH and PTH-related protein are expressed in the hypothalamus and pituitary gland, and PTH and PTH-related protein receptors in all the components of the HPA axis. Both peptides enhance ACTH and arginine-vasopressin release, as well as stimulate aldosterone and glucocorticoid secretion of dispersed zona glomerulosa and ZF/R cells, respectively. The involvement of growth hormone-releasing hormone and exendins in the functional regulation of the HPA axis has not yet been extensively investigated.
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PMID:Secretin, glucagon, gastric inhibitory polypeptide, parathyroid hormone, and related peptides in the regulation of the hypothalamus- pituitary-adrenal axis. 1076 61

Recent studies from several groups have indicated that abnormal or ectopic expression and function of adrenal receptors for various hormones may regulate cortisol production in ACTH-independent hypercortisolism. Gastric inhibitory polypeptide (GIP)-dependent Cushing's syndrome has been described in patients with either unilateral adenoma or bilateral macronodular adrenal hyperplasia; this syndrome results from the large adrenal overexpression of the GIP receptor without any activating mutation. We have conducted a systematic in vivo evaluation of patients with adrenal Cushing's syndrome in order to identify the presence of abnormal hormone receptors. In macronodular adrenal hyperplasia, we have identified, in addition to GIP-dependent Cushing's syndrome, other patients in whom cortisol production was regulated abnormally by vasopressin, ss-adrenergic receptor agonists, hCG/LH, or serotonin 5HT-4 receptor agonists. In patients with unilateral adrenal adenoma, the abnormal expression or function of GIP or vasopressin receptor has been found, but the presence of ectopic or abnormal hormone receptors appears to be less prevalent than in macronodular adrenal hyperplasia. The identification of the presence of an abnormal adrenal receptor offers the possibility of a new pharmacological approach to control hypercortisolism by suppressing the endogenous ligands or by using specific antagonists for the abnormal receptors.
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PMID:The diversity of abnormal hormone receptors in adrenal Cushing's syndrome allows novel pharmacological therapies. 1100 21

Twenty consecutive patients with adrenal Cushing's syndrome were studied with an in vivo protocol to determine the prevalence and diversity of the presence of ectopic or abnormal hormone receptors in their adrenal tissues. All six patients with bilateral ACTH-independent macronodular adrenal hyperplasia were found to have one or two abnormal adrenal receptors, including those for gastric inhibitory polypeptide, vasopressin (V1-vasopressin), beta-adrenergic agonists, LH/human CG, or serotonin 5-HT4. The presence of abnormal hormone receptors was found to be less frequently present in unilateral adenomas or carcinomas (3 of 14). The identification of abnormal adrenal hormone receptors can allow new pharmacological therapies of hypercortisolism. We suggest that the clinical screening for the presence of abnormal hormone receptors should be conducted in patients with adrenal Cushing's syndrome and, more particularly, in those with ACTH-independent macronodular adrenal hyperplasia, in the hope of offering medical therapy as an alternative to bilateral adrenalectomy.
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PMID:Are ectopic or abnormal membrane hormone receptors frequently present in adrenal Cushing's syndrome? 1106 96

The mechanism by which cortisol is produced in adrenal Cushing's syndrome, when ACTH is suppressed, was previously unknown and was referred to as being "autonomous." More recently, several investigators have shown that some cortisol and other steroid-producing adrenal tumors or hyperplasias are under the control of ectopic (or aberrant, illicit, inappropriate) membrane hormone receptors. These include ectopic receptors for gastric inhibitory polypeptide (GIP), beta-adrenergic agonists, or LH/hCG; a similar outcome can result from altered activity of eutopic receptors, such as those for vasopressin (V1-AVPR), serotonin (5-HT4), or possibly leptin. The presence of aberrant receptors places adrenal cells under stimulation by a trophic factor not negatively regulated by glucocorticoids, leading to increased steroidogenesis and possibly to the proliferative phenotype. The molecular mechanisms responsible for the abnormal expression and function of membrane hormone receptors are still largely unknown. Identification of the presence of these illicit receptors can eventually lead to new pharmacological therapies as alternatives to adrenalectomy, now demonstrated by the long-term control of ectopic P-AR- and LH/hCGR-dependent Cushing's syndrome by propanolol and leuprolide acetate. Further studies will potentially identify a larger diversity of hormone receptors capable of coupling to G proteins, adenylyl cyclase, and steroidogenesis in functional adrenal tumors and probably in other endocrine and nonendocrine tumors.
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PMID:Ectopic and abnormal hormone receptors in adrenal Cushing's syndrome. 1115 17

Recent studies from several groups have indicated that abnormal or ectopic expression and function of adrenal receptors for various hormones may regulate cortisol production in ACTH-independent hypercortisolism. GIP-dependent Cushing's syndrome has been described in patients with either unilateral adenomas or bilateral macronodular adrenal hyperplasia; this syndrome results from the adrenal overexpression of the GIP receptor, which was found to be without an activating mutation. An increased stimulation of cortisol secretion following administration of vasopressin was also reported by several investigators in patients with adrenal Cushing's syndrome; this was linked to an increased expression or abnormal response of the V1-vasopressin receptor. We have conducted a prospective in vivo evaluation of 20 patients with adrenal Cushing's syndrome in order to identify the presence of abnormal hormone receptors. In 6 cases of macronodular adrenal hyperplasia, we have identified, in addition to 2 cases of GIP-dependent Cushing's syndrome, 4 other patients in whom cortisol production was regulated abnormally either by vasopressin, B-adrenergic receptor agonists, hCG/LH, or serotonin 5-HT-4 receptor agonists. In 13 patients with unilateral adrenal adenoma, an abnormal response to a mixed meal or to vasopressin was found in 3 cases, suggesting that the presence of ectopic or abnormal hormone receptors is less prevalent than in macronodular adrenal hyperplasia. The identification of the presence of an abnormal adrenal receptor offers the possibility of a new pharmacological approach to control hypercortisolism by suppressing the endogenous ligands or by using specific antagonists of the abnormal receptors.
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PMID:[Illicit hormone receptors in adrenal Cushing's syndrome]. 1135 92

Cortisol secretion in adrenal Cushing's syndrome can be regulated by the aberrant adrenal expression of receptors for gastric inhibitory polypeptide, vasopressin, catecholamines, LH/human CG (LH/hCG), or serotonin. Four patients with incidentally discovered bilateral macronodular adrenal hyperplasia without clinical Cushing's syndrome were evaluated for the possible presence of aberrant adrenocortical hormone receptors. Urinary free cortisol levels were within normal limits, but plasma cortisol levels were slightly elevated at nighttime and suppressed incompletely after dexamethasone administration. Plasma ACTH was partially suppressed basally but increased after administration of ovine CRH. A 51-yr-old woman had ACTH-independent increases of plasma cortisol after 10 IU AVP im (292%), 100 microg GnRH iv (184%), or 10 mg cisapride orally (310%); cortisol also increased after administration of NaCl (3%), hCG, human LH, and metoclopramide. In a 61-yr-old man, cortisol was increased by AVP (349%), GnRH (155%), hCG (252%), and metoclopramide (191%). Another 53-yr-old male increased plasma cortisol after AVP (171%) and cisapride (142%). Cortisol secretion was also stimulated by vasopressin in a 54-yr-old female. This study demonstrates that subclinical secretion of cortisol can be regulated via the aberrant function of at least V1-vasopressin, LH/hCG, or 5-HT4 receptors in incidentally identified bilateral macronodular adrenal hyperplasia.
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PMID:Aberrant membrane hormone receptors in incidentally discovered bilateral macronodular adrenal hyperplasia with subclinical Cushing's syndrome. 1170 32

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