Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The endocrine glands of the human foetus are active early in gestation, and various foetal and placental hormonal contributions are essential for growth and sexual differentiation. 1. The anterior pituitary gland has the ability to synthesize, store and secrete hormones early in gestation. The patterns of change in plasma concentrations of hGH (Fig. 1), ACTH, LH and FSH (Fig. 2) during gestation indicate that secretion is at a maximum at mid-gestation, followed by a progressive decrease towards term. The high levels at mid-gestation can be interpreted as due simultaneously to a high secretion rate, low peripheral catabolism and absence of feedback mechanism. In contrast, the secretions of PRL (Fig. 1) and TSH are moderate at mid-gestation and only increase in the last trimester of gestation. 2. Effective control by the central nervous system (CNS) of the pituitary secretions is still immature at mid-gestation. The presence in the foetal hypothalamus of releasing factors such as LRF (Fig. 5) and TRF, and of somatostatin (Fig. 6), a growth hormone release inhibiting factor (GIF), has been established. TRF and GIF, but not LRF, are also present in the cerebral cortex. It has been postulated that, early in life, relatively autonomous and unrestrained secretion of hypothalamic hypophysiotropic releasing factors occurs, and that, later in development, there is a maturation of inhibitory or restraining influences mediated via the CNS (feedback mechanisms) that modulates the secretion of the foetal adenohypophyseal hormones (Fig. 3 and 4). 3. Observations made with anencephalic newborn confirm that a functional hypothalamus is necessary during foetal life for the secretion of each of the hormones of the anterior pituitary gland with the exception of PRL, the secretion of which is normal in anencephaly. Although somatostatin probably participates in the regulation of hGH during foetal life, it appears evident from the anencephaly data that this regulation can only be fully understood by postulating the existence of a growth hormone releasing factor (GRF).
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PMID:[Ontogenesis of hypothalamic control of adenohypophyseal secretions in the human foetus (author's transl)]. 11 47

Four-day-old pituitary monolayer cultures were incubated with various hypothalamic releasing hormones. Rat hypothalamic extract stimulated the release of LH, FSH, and PRL by these cultures in a dose-related fashion. Synthetic LH-RH stimulated the release of LH and FSH but not of PRL. Synthetic TRH increased the release of PRL but had no effect on LH or FSH. At 10(-8) M, somatostatin did not affect any of the three adenohypophyseal hormones. Incubation with DBcAMP or theophylline also stimulated PRL release without any detectable effect on LH and FSH release. These data suggest the involvement of cyclic AMP--adenylate cyclase system in the mechanism of PRL release, but their involvement in gonadotropin release requires further studies.
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PMID:Effects of hypothalamic-releasing hormones on LH, FSH, and prolactin in pituitary monolayer cultures. 17 71

The anterior pituitary gland of the human fetus has the ability of synthetizing, storing and secreting hormones early during gestation. The patterns of plasma concentrations of hGH, ACTH, LH and FSH during gestation indicate a maximum of secretion at mid-gestation followed by a progressive decrease of these concentrations until term. In contrast, the secretions of PRL and TSH are moderate at mid-gestation and only increase in the last trimester of gestation. Effective control by the central nervous system (CNS) of the pituitary secretions is still immature at mid-gestation. The presence of releasing factors in the fetal hypothalamus has been established (TRF, LRF, somatostatine) and it was postulated that early in life, relatively autonomous and unrestrained secretion of hypothalamic hypophysiotropic releasing factors occurs and, later in development, there was a maturation of inhibitory or restraining influences mediated via the CNS that modulate the secretion of the fetal adenohypophyseal hormones. Observations made with anencephalic newborns confirm that a functional hypothalamus is necessary for the secretions of each of the hormones of the anterior pituitary gland with the exceptiion of PRL, the secretion of which is normal in anencephaly. Although somatostatin probably participates in the regulation of hGH during fetal life, it appears evident that this regulation can only be fully understood with the existence of a GRF (Growth Hormone Releasing Factor).
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PMID:[Hypothalamic factors in the human fetal brain: their role in the ontogeny of fetal hypophyseal functions]. 20 94

Immunohistochemical staining for methionine-enkephalin and leucine-enkephalin were used to reveal an enkephalins-like substance in the median eminence and adenohypophysis of guinea pig and rat. Nerve endings were stained for enkephalins in the external layer of the median eminence. By successive staining of two different antigens, somatostatin fibers in the guinea pig were also shown to be enkephalin-immunoreactive. Staining of the adenohypophysis varied with the species and the antisera used. Intermediate lobe and corticomelanotrophs were stained moderately. In both species, and with all the antisera, thyrotrophs were shown to contain an immunoreactive substance. In the guinea pig, gonadotrophs were stained particularly by the anti-leucine-enkephalin antiserum used. The locus of enkephalin action on pituitary functions can be discussed: enkephalins possibly have an inhibiting action on somatostatin fibers, which agrees with the stimulating action of enkephalins on GH already known. Furthermore, enkephalins could have a direct action on pituitary glycoprotein proceducing cells, which would explain their inhibiting action demonstrated previously on LH, FSH and TSH.
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PMID:Immunohistochemical localization of enkephalins in median eminence and adenohypophysis. 37 61

The synthetic linear tetradekapeptide somatostatin (growth-hormone release inhibitory hormone: GHRIH) inhibits the liberation of growth hormone in normal persons in the insulin hypoglycaemia test without influencing the rise of cortisol and prolactin, while the concentrations of LH, FSH and TSH remain unchanged. In patients with florid acromegaly there occurs during administration of GHRIH a marked fall in the raised STH level without influencing the basal level of the other anterior-pituitary hormones. As a further effect there is suppression of the insulin level. The somatostatin at present available has a very short biological half-life and in its present form is, therefore, without therapeutic importance.
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PMID:[The effect of synthetic somatostatin in normal and acromegalic males]. 109 Apr 28

We evaluated serum alpha-subunit concentrations in 72 patients bearing pituitary adenomas. We conclude that: 1) alpha-subunit hypersecretion is found in all patients with TSH secreting pituitary adenoma (n = 10). Two patients have a predominant secretion of alpha-subunit as compared to TSH secretion. 2) As concerns gonadotropin secreting pituitary adenomas (n = 3), all patient have elevated serum alpha-subunit levels with increased FSH and LT concentrations in 2 cases and 1 case respectively. 3) In prolactinomas (n = 14), alpha-subunit concentrations are not significantly different from that of normal subjects. 4) In 11 acromegalic patients, alpha-subunit hypersecretion is found in 2 patients only with GH-alpha and GH-PRL-alpha secreting pituitary adenomas. 5) Among 34 patients with nonsecreting adenomas, 8 have elevated alpha-subunit concentrations (24%). Positive immunocytochemical staining is found in 70% most often with gonadotropins (55%). Only a few pituitary tumors with positive alpha-subunit immunocytochemical staining have elevated serum alpha-subunit levels. At least, the measurement of basal circulating alpha-subunit levels is very useful in the follow-up of patients with nonsecreting adenomas. In our study, medical treatments including bromocriptine and somatostatin analogues have been found effective in patients with alpha-subunit hypersecretion. Further investigations are necessary to prove if such treatments could control tumoral growth and could prevent recurrences.
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PMID:[Value of alpha subunit assay in pituitary pathology]. 128 29

The hypothalamic factors dopamine (DA) and somatostatin (SRIH) inhibit pituitary glycoprotein secretion, but little is known regarding the effects of these factors on glycoprotein pulses. To address this question, 12 healthy volunteers underwent frequent blood sampling over 12 h at baseline and during 12-h infusions of DA and/or SRIH. TSH, LH, FSH, and alpha-subunit (alpha) levels were measured in all samples, and hormone pulses were located by Cluster analysis. Both DA and SRIH suppressed TSH pulse amplitude by 70%, while SRIH decreased TSH pulse frequency as well. Both infusions decreased LH pulse amplitude by 30-35%, but had no effect on pulse frequency. In contrast, neither infusion significantly altered FSH pulse parameters, although mean FSH levels declined 15%. DA had no effect on pulsatile alpha secretion, while SRIH decreased alpha pulse frequency. Serum thyroid hormone levels declined during both infusions, but there were no major changes in serum sex steroid levels. Thus, the hypothalamic inhibitory factors DA and SRIH had divergent effects on glycoprotein hormone pulses. The major effects on pulse amplitude, rather than frequency, imply that these factors do not play major roles in the generation of glycoprotein pulses, although SRIH may directly affect the TSH and alpha pulse generators.
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PMID:Effects of dopamine and somatostatin on pulsatile pituitary glycoprotein secretion. 134 83

Activin A stimulated synthesis and secretion of intact FSH in dispersed human FSH-secreting adenoma cells. Significant stimulation was observed after 24 hr. Activin A caused an increase in Ca2+ concentration ([Ca2+]i). This response occurred soon after the activin A action. These effects were blocked in Ca(2+)-deficient medium and by nitrendipine (5 microM). Somatostatin inhibited the activin A-induced intact FSH secretion and the [Ca2+]i response. These findings indicated that Ca2+ influx through voltage-gated Ca2+ channel was involved in the activin A induced synthesis and secretion of intact FSH.
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PMID:Effects of activin A and somatostatin on intact FSH secretion and intracellular Ca2+ concentration in human FSH-secreting pituitary adenoma cells. 134 12

We have studied seven patients with a clinically nonfunctioning or alpha-subunit-secreting pituitary macroadenoma, four of whom received long term, high dose octreotide treatment. We have attempted to correlate the presence of somatostatin receptors (SS-R) in the adenomas and the outcome of octreotide treatment, as measured by tumor size, improvements in visual field defects, and hormonal response. The presence of SS-R in the pituitary adenomas was demonstrated in vivo using [111indium]octreotide scintigraphy and in vitro by autoradiography of tissue fragments obtained after transsphenoidal surgery. Adenomas from six of the seven subjects were SS-R positive. High dose (1200 micrograms, sc, daily) octreotide treatment was given to four subjects, three of whom were SS-R positive. Improvement of the visual field defects was observed in three of four patients (including the SS-R-negative subject), although no computed tomographic scan-assessed tumor size reduction was found. Two of four patients showed small but significant reductions in serum FSH concentrations (to 83% and 93% of initial values) with treatment. These in vivo responses to high dose octreotide treatment could not be predicted by pretreatment responses to 200 micrograms TRH or 100 micrograms octreotide. Tissue fragments for cell culture were obtained from six patients, and in vitro release of gonadotropins and/or alpha-subunit could be demonstrated in five cultures. In vitro, octreotide (10 nmol/L) significantly decreased gonadotropiin or subunit release in three of five cultures, whereas bromocriptine (10 nmol/L) significantly reduced the release in four of five cultures and to a significantly greater extent than octreotide. In conclusion, in six of seven patients with a clinically nonfunctioning or alpha-subunit-secreting pituitary adenoma, SS-R were demonstrated in the tumor. In vitro incubation of adenoma cells with octreotide resulted in mild inhibition of gonadotropin or alpha-subunit release. Although in vivo long term treatment with high doses of octreotide did not result in substantial tumor size reduction, improvement of visual field defects was observed in three of four subjects.
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PMID:Clinically nonfunctioning pituitary adenoma and octreotide response to long term high dose treatment, and studies in vitro. 143 93

Some pituitary hormones secrete hormones while others do not. Nonsecreting tumors can interfere with normal pituitary hormone secretion and produce tumor symptoms and signs like headaches and visual field defects. The most frequent hormone-secreting tumors are prolactinomas. Growth hormone or ACTH or gonadotropin or gonadotropin-alpha and beta chain-producing tumors are less frequent, TSH producing tumors are extremely rare. The most important elements of the diagnostic work-up are clinical signs and symptoms, assessment of pituitary function (measurement of TSH, free T4, LH, FSH, oestradiol/free testosteron, growth hormone, IGF-1, prolactin, ACTH, Cortisol, serum and urine osmolality), CT and/or MRI and, in patients with large tumors, a visual field exam. The treatment of choice of pituitary tumors is often surgery. Alternative therapies are radiation treatment (in nonoperable patients or when hormone levels are persistently elevated after pituitary surgery) and drug treatment (dopamine agonists in hyperprolactinemia, somatostatin analogues in acromegaly). Pituitary hormone deficiencies are treated depending on the specific deficiency with thyroxine, cortisone, oestrogen/gestagen/testosterone gonadotropines or ADH analogues.
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PMID:[Hypophyseal dysfunction and tumors]. 158 68


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