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 secretory pattern of GH in the mature rat is sexually differentiated. In male rats GH is secreted in pulses occurring at regular 3- to 4-h intervals. In females the pulses are lower and plasma GH levels between the pulses are higher than in males. The continuous presence of testosterone appears to be necessary to maintain low basal GH levels in adult male rats. Neonatal, but not prepubertal, gonadectomy decreases GH pulse height in adult male rats to female levels. Administration of testosterone neonatally to castrated animals returns GH pulse height to normal suggesting that neonatal testicular androgen secretion is one determinant for GH pulse height in adult male rats. Administration of testosterone neonatally or during adult life to neonatally ovariectomized rats also produces higher GH pulses. In contrast to testosterone, estrogens elevate basal plasma GH levels and suppress the GH pulses under some conditions. Estrogens may stimulate basal GH secretion by acting directly on the pituitary. The physiological significance of the secretory pattern of GH has been investigated in hypophysectomized rats by simulating different plasma patterns of GH. The results suggest that high, infrequent GH pulses with low plasma GH levels in between (i.e. a masculine plasma GH pattern) promotes growth more effectively than an intermediate, rather constant level of plasma GH (i.e. a feminine plasma GH pattern). Since male sex steroids masculinize the secretory pattern of GH and have only minor growth-promoting effects in hypophysectomized animals it appears that the growth promoting effect of androgens is indirect and is due to an altered secretory pattern of GH. Presumably, neonatal androgen secretion stimulates body growth during adult life by irreversibly masculinizing the secretory pattern of GH. In contrast, estrogens appear to influence body growth by mechanisms that are mainly independent of the secretory pattern of GH. Evidence is accumulating that the secretory pattern of GH in the rat also affects various sexually differentiated hepatic characteristics such as steroid metabolism and prolactin receptor concentration. Thus, a feminization of the liver develops after continuous, but not intermittent, administration of GH to hypophysectomized rats. GH secretion is predominantly regulated by two hypothalamic peptides; GRF, and the GH-release-inhibiting factor, somatostatin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Sexual dimorphism in the control of growth hormone secretion. 286 Oct 84

Growth hormone, prolactin and somatostatin are polypeptide hormones of the neuroendocrine and peripheral nervous systems. In vitro, these have opposing effects on cells of the immune system. We compared the effects of these peptides on activation of neutrophils using a recombinant preparation of human growth hormone, human prolactin and octreotide, a long acting analog of somatostatin. In the absence of growth hormone, octreotide did not affect either neutrophil locomotion or respiratory burst. Octreotide, however, significantly antagonized growth hormone-induced activation of neutrophils for enhanced respiratory burst as well as growth hormone-induced inhibition of stimulated migration. As the effect of growth hormone on neutrophils is mediated by the prolactin receptor, its inhibition by octreotide was also tested using prolactin as priming agent. Data indicate comparable effects of octreotide on priming of neutrophils by prolactin. The effect of octreotide was dose-dependent and appeared to be selective, as activation of neutrophil respiration burst by gamma-interferon, and inhibition of stimulated migration by tumor necrosis factor-alpha were unaffected by octreotide. The present study suggests that octreotide may act on neutrophils directly by antagonizing growth hormone or prolactin at the cellular level.
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PMID:Inhibition of recombinant human growth hormone-induced and prolactin-induced activation of neutrophils by octreotide. 809 70

To test the hypothesis of the involvement of centrally expressed rat growth hormone receptors (rGH-R) in the ultradian rhythmicity of pituitary GH secretion, adult male rats were submitted to a 60 hr intracerebroventricular infusion of an antisense (AS) oligodeoxynucleotide (ODN) complementary to the sequence of rGH-R mRNA. Eight hour (10 A.M.-6 P.M.) GH secretory profiles, obtained from freely moving male rats infused with 2.0 nmol/hr of rGH-R AS, revealed a marked increase in GH peak amplitude (150 +/- 12 vs 101 +/- 10 ng/ml), trough levels (16.2 +/- 3.0 vs 5.4 +/- 1.4 ng/ml), and number of peaks (2.9 +/- 0.3 vs 1.8 +/- 0.2). No change was observed in rats treated with an ODN complementary to the prolactin receptor mRNA sequence (2.0 nmol/hr). Infusion of increasing ODN concentrations resulted in a dose-dependent stimulation of GH release. In parallel, somatogenic binding sites in the choroid plexus were decreased by 40%, and levels of rGH-R mRNA were increased in the periventricular nucleus (PeV) but unchanged in the arcuate nucleus (ARC). Levels of somatostatin mRNA, in the PeV but not in the ARC, were lowered by the treatment. Levels of GH-releasing hormone mRNA in the ARC were not affected. These data suggest that GH negative feedback results from a direct effect on central GH receptors and a subsequent activation of hypophysiotropic somatostatin neurons located in the anterior periventricular hypothalamus.
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PMID:Central administration of a growth hormone (GH) receptor mRNA antisense increases GH pulsatility and decreases hypothalamic somatostatin expression in rats. 898 39

Goldfish prolactin cDNA was subcloned into a pRSET A vector and expressed in Escherichia coli. Recombinant goldfish prolactin was expressed mainly as insoluble inclusion bodies in the form of N-terminal 6x His-tagged fusion protein. This fusion protein was purified, refolded, and (125)I-labeled to generate a radioligand for receptor binding and validation of a radioimmunoassay for goldfish prolactin. Using goldfish gill membrane as the substrate for prolactin receptor binding, both recombinant and native forms of goldfish prolactin were effective in displacing the specific binding of the radioligand in a similar dose range, suggesting that the fusion protein was refolded properly and could be recognized by goldfish prolactin receptors. To quantify prolactin contents in biological samples from the goldfish, a radioimmunoassay using the (125)I-labeled recombinant prolactin as a tracer was established. This assay was shown to be selective for goldfish prolactin without cross-reactivity with mammalian prolactin and pituitary hormones from other fish species (e.g., growth hormone and gonadotropin II). This newly validated assay system was used to investigate neuroendocrine and signal transduction mechanisms regulating prolactin release in the goldfish. In this case, the Ca(2+) ionophore A23187 and protein kinase C activator TPA were effective in elevating basal levels of prolactin secretion in perifused goldfish pituitary cells. In parallel studies using a static incubation approach, somatostatin and dopamine, but not vasoactive intestinal polypeptide, were inhibitory to basal prolactin release in goldfish pituitary cells. These results suggest that somatostatin and dopamine may serve as negative regulators of basal prolactin secretion and that extracellular Ca(2+) influx and protein kinase C activation may be important signaling events mediating prolactin release in the goldfish.
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PMID:Production of recombinant goldfish prolactin and its applications in radioreceptor binding assay and radioimmunoassay. 1194 69

It has been previously reported that male and female somatostatin (SST) knockout mice (Sst-/-) release more GH, compared with Sst+/+ mice, due to enhanced GH-secretory vesicle release. Endogenous SST may also regulate GH secretion by directly inhibiting GHRH-stimulated GH gene expression and/or by modulating hypothalamic GHRH input. To begin to explore these possibilities and to learn more about the gender-dependent role of SST in modulating GH-axis function, hypothalamic, pituitary, and liver components of the GH-axis were compared in male and female Sst+/+ and Sst-/- mice. Pituitary mRNA levels for GH and receptors for GHRH and ghrelin were increased in female Sst-/- mice, compared with Sst+/+ controls, and these changes were reflected by an increase in circulating GH and IGF-I. Elevated levels of IGF-I in female Sst-/- mice were associated with elevated hepatic mRNA levels for IGF-I, as well as for GH and prolactin receptors. Consistent with the role of GH/IGF-I in negative feedback regulation of hypothalamic function, GHRH mRNA levels were reduced in female Sst-/- mice, whereas cortistatin (CST) mRNA levels were unaltered. In contrast to the widespread impact of SST loss on GH-axis function in females, only circulating GH, hypothalamic CST, and hepatic prolactin receptor expression were up-regulated in Sst-/- male mice, compared with Sst+/+ controls. These results confirm and extend the sexually dimorphic role of SST on GH-axis regulation, and suggest that CST, a neuropeptide that acts through SST receptors to inhibit GH secretion, may serve a compensatory role in maintaining GH-axis function in Sst-/- male mice.
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PMID:Gender-dependent role of endogenous somatostatin in regulating growth hormone-axis function in mice. 1776 62

Estradiol and progesterone are crucial for the acquisition of receptivity and the change in transcriptional activity of target genes in the implantation window. The aim of this study was to differentiate the regulation of genes in the endometrium of patients with recurrent implantation failure (IF) versus those who became pregnant after in vitro fertilization (IVF) treatment. Moreover, the effect of embryo-derived factors on endometrial transcriptional activity was studied. Nine women with known IVF outcome (IF, M, miscarriage, OP, ongoing pregnancy) and undergoing hysteroscopy with endometrial biopsy were enrolled. Biopsies were taken during the midluteal phase. After culture in the presence of embryo-conditioned IVF media, total RNA was extracted and submitted to reverse transcription, target cDNA synthesis, biotin labelling, fragmentation and hybridization using the Affymetrix Human Genome U133A 2.0 Chip. Differential expression of selected genes was re-analysed by quantitative PCR, in which the results were calculated as threshold cycle differences between the groups and normalized to Glyceraldehyde phosphate dehydrogenase and beta-actin. Differences were seen for several genes from endometrial tissue between the IF and the pregnancy groups, and when comparing OP with M, 1875 up- and 1807 down-regulated genes were returned. Real-time PCR analysis confirmed up-regulation for somatostatin, PLAP-2, mucin 4 and CD163, and down-regulation of glycodelin, IL-24, CD69, leukaemia inhibitory factor and prolactin receptor between Op and M. When the different embryo-conditioned media were compared, no significant differential regulation could be demonstrated. Although microarray profiling may currently not be sensitive enough for studying the effects of embryo-derived factors on the endometrium, the observed differences in gene expression between M and OP suggest that it will become an interesting tool for the identification of fertility-relevant markers produced by the endometrium.
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PMID:Gene expression in cultured endometrium from women with different outcomes following IVF. 1853 42

The ultradian pulsatile pattern of growth hormone (GH) secretion is markedly sexually dimorphic in rodents as in primates, but the neuroanatomical mechanisms of this phenomenon are not clear. In the arcuate nucleus of the hypothalamus, GH-releasing hormone (GHRH) neurones receive somatostatinergic inputs through the sst2A receptor (sst2A-R) and the percentage of GHRH neurones bearing sst2A-R is higher in female than in male GHRH-enhanced green fluorescent protein (eGFP) mice. In the present study, we hypothesised that sst2A-R expression on GHRH neurones is modulated by gonadal steroids and constitutes a mechanism for sexually differentiated GH secretion. The distribution of sst2A-R on GHRH neurones was evaluated by immunohistochemistry in adult GHRH-eGFP mice gonadectomised and treated for 3 weeks with oestradiol or testosterone implants. In gonadectomised females supplemented with testosterone, sst2A-R distribution on GHRH neurones was reduced to the level seen in intact males, whereas oestradiol implants were ineffective. Conversely, orchidectomy induced a female 'sst2A phenotype', which was reversed by testosterone supplementation. Changes in the hepatic expression of GH-dependent genes for major urinary protein-3 and the prolactin receptor reflected the altered steroid influence on GH pulsatile secretion. In the ventromedial-arcuate region, GHRH and sst2-R, as well as GHRH and somatostatin expression as measured by the real-time polymerase chain reaction, were positively correlated in both sexes. By contrast, the positive correlation between ventromedial-arcuate GHRH and periventricular somatostatin expression in males was reversed to a negative one in females. Moreover, the positive correlation between periventricular somatostatin and ventromedial-arcuate sst2-R expressions in males was lost in females. These results suggest that, in the adult mouse, testosterone is a major modulator of sst2A distribution on GHRH neurones. This marked sex difference in sst2A-R distribution may constitute a key element in the genesis of the sexually differentiated pattern of GH secretion, possibly through testosterone-modulated changes in somatostatin inputs from hypophysiotrophic periventricular neurones.
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PMID:Sexually dimorphic distribution of sst2A receptors on growth hormone-releasing hormone neurones in mice: modulation by gonadal steroids. 1875 55

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