Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although somatostatin inhibits a variety of pituitary and non-pituitary hormones, not univocal data on its effects on ACTH release have been reported so far. In this study we investigated the effects of somatostatin or octreotide on ACTH levels of patients with corticotropin hypersecretion: 7 patients with Addison's disease, 2 patients previously adrenalectomized for Cushing's disease, 4 patients with Cushing's disease and 3 patients with ectopic ACTH syndrome. Plasma ACTH and cortisol levels were determined after somatostatin (500 micrograms over 60 min) infusion or octreotide (100 micrograms sc) injection. In 5 other patients with Cushing's disease ACTH and cortisol responses to CRH (1 microgram/kg iv) were evaluated in basal conditions and after octreotide acute administration. In no patients with Addison's disease any inhibitory influence of somatostatin (delta % = -21, -25) or octreotide (delta % = -38 +/- 12 vs -39 +/- 12 after saline) on plasma ACTH was found. Somatostatin did not significantly inhibit plasma ACTH in the two patients previously adrenalectomized for Cushing's disease and in 3 patients with Cushing's syndrome; in other 4 patients with Cushing's syndrome octreotide did not affect plasma ACTH levels. In 5 patients with Cushing's disease the plasma ACTH and cortisol responses to CRH were similar both before (ACTH from 9.9 +/- 1.7 pmol/L to 19.4 +/- 6.1 pmol/L; cortisol from 496 +/- 43.9 nmol/L to 923 +/- 355 nmol/L) and after octreotide injection (ACTH from 8.8 +/- 2.4 pmol/L to 19.1 +/- 8.2 pmol/L; cortisol from 510 +/- 54.6 nmol/L to 735 +/- 220 nmol/L). In conclusion, the acute administration of somatostatin or octreotide is not able to modify ACTH levels in patients with corticotropin hypersecretion either due to hypocortisolemic state or consequent to ACTH-secreting pituitary or ectopic tumors; moreover, octreotide does not affect the pituitary-adrenal responsiveness to CRH in patients with Cushing's disease.
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PMID:Failure of somatostatin and octreotide to acutely affect the hypothalamic-pituitary-adrenal function in patients with corticotropin hypersecretion. 197 78

Somatostatin (250 micrograms as a bolus iv and 250 micrograms as a 1 h infusion) was administered to 6 patients with primary adrenal insufficiency (Addison's disease). The fall in plasma ACTH during the infusion period ranged between 0-30% with a mean reduction of 11.2 +/- 11.6%. These findings suggest that with the method employed, somatostatin is not an inhibitor of ACTH secretion in a condition in which glucocorticoids are lacking.
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PMID:No inhibition of corticotrophin (ACTH)-hypersecretion in adrenal insufficiency by somatostatin. 610 17

We studied the effects of cortisol withdrawal and patterned replacement upon spontaneous GH secretion and circadian rhythmicity in 7 patients with Addison's disease. Hydrocortisone was administered in physiological daily total dosages, and all resulting plasma cortisol values were 2-15 micrograms/dl. It was given in 3 pulsatile modes: simulating "physiological" rhythm, "reverse" diurnal rhythmicity and "continuous" pulsatility. All modes of cortisol administration increased mean 24 h, GH pulse amplitude and interpulse GH levels. During saline infusions circadian GH rhythmicity was preserved, with GH being at its highest between 2400-0400 h. Administration of hydrocortisone in any mode did not modify circadian GH rhythmicity. We conclude: Cortisol replacement in physiological daily doses increases GH output in patients with Addison's disease by augmenting GH pulse amplitude and interpulse levels. This is likely due to the attenuation of hypothalamic somatostatin (SRIF) secretion by physiologic levels of cortisol. By inference, it implies that cortisol deficiency leads to diminution of GH output with low GH pulse amplitude, likely as a result of an augmented hypothalamic somatostatin secretion. However, circadian rhythmicity of GH secretion is glucocorticoid-independent.
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PMID:Growth hormone (GH) secretion in primary adrenal insufficiency: effects of cortisol withdrawal and patterned replacement on GH pulsatility and circadian rhythmicity. 1138 82

A bidirectional interaction exists between the electrophysiological and neuroendocrine components of sleep. The first is represented by the nonrapid eye movement sleep (NREMS) and rapid eye movement sleep (REMS) cycles, the latter by distinct patterns of the secretion of various hormones. Certain hormones (neuropeptides and steroids) play a specific role in sleep regulation. Changes in their activity contribute to the pathophysiology of sleep disorders. A reciprocal interaction of the peptides growth hormone-releasing hormone (GHRH) and corticotropin-releasing hormone (CRH) plays a key role in sleep regulation. GHRH promotes growth hormone secretion and, at least in males, NREMS, whereas CRH impairs NREMS, promotes REMS and stimulates the secretion of adrenocorticotropic hormone and cortisol. Changes in the CRH:GHRH ratio in favor of CRH contribute to impaired sleep, elevated cortisol secretion and blunted GH levels during depression and normal aging. However, in women, GHRH exerts CRH-like effects. Galanin, ghrelin and neuropeptide Y are other sleep-promoting peptides, whereas somatostatin impairs sleep. A decline of orexin activity causes narcolepsy. In addition to CRH overactivity, hypercortisolism appears to be involved in the pathophysiology of sleep- electroencephalogram (EEG) changes in depression. Various neuroactive steroids exert specific effects on sleep. The changes of sleep EEG in women after the menopause are related to the decline of estrogen and progesterone. Furthermore, sleep-EEG changes in dwarfism, acromegaly, Addison's disease, Cushing's disease, brain injury, sleep apnea syndrome, primary insomnia, prolactinoma and dementia appear to be related to changes in the activity of peptides and steroids.
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PMID:Roles of peptides and steroids in sleep disorders. 3075 93