UNIPROT:P20366 - FACTA Search

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Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neurotensin (NT), substance P (SP) and morphine sulfate (MS) elevate plasma prolactin and growth hormone levels in both normal or estrogen-progesterone pretreated male rats. By contrast, steroid priming is required for TRF to exhibit PRL-releasing activity. Naloxone, an opiate receptor blocker, reverses the stimulatory effect of MS only. Diphenhydramine, a histamine antagonist, inhibits the response to NT, SP and MS without affecting the response to TRF. These results suggest the involvement of a histaminic step in the action of NT, SP and MS. TRF, NT and SP do not appear to stimulate PRL and GH through activation of an opiate receptor.
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PMID:Effect of neurotensin, substance P and morphine sulfate on the secretion of prolactin and growth hormone in the rat. 9 1

The effects of bombesin and other unrelated oligopeptides on hormonal changes induced by stress were studied in conscious adult male rats. Restraint in the cold for 1 h increased plasma corticosterone and PRL levels and decreased GH values but had no effect on LH levels. Bombesin (5 microgram), given intracerebroventricularly (ivt) before stress, inhibited the PRL rise without affecting corticosterone, GH, or LH response. A complete blockade of PRL rise was observed with doses of bombesin ranging from 5 microgram to 100 ng ivt, regardless of the duration (15, 30, 45, or 60 min) or the nature (cold exposure or restraint at room temperature) of the stressor agents. Bombesin was 10(3) more potent as a PRL inhibitor when given ivt than when given iv, and its ivt effect was not reversed by naloxone (1 or 10 mg/kg). Among other unrelated peptides tested (beta-endorphin, neurotensin, substance P, and TRH; 5 microgram ivt), only neurotensin decreased plasma PRL levels in rats subjected to restraint in the cold for 1 h. These results show that in conscious male rats, centrally administered bombesin has a very potent and long acting inhibitory effect on PRL release induced by acute stress. Since a bombesin-like peptide has been found in rat brain, its physiological role in PRL regulation remains to be elucidated.
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PMID:Effects of neuropeptides on adenohypophyseal hormone response to acute stress in male rats. 10 88

The effects of acute stress exposure upon cholecystokinin (CCK) and substance P (SP) concentrations in discrete hypothalamic regions of the adult male rat brain were studied. Animals were exposed to foot shock stress for periods of 2, 4, 10, 30 or 60 min duration; immediately afterwards they were decapitated; brains were frozen and subsequently microdissected. CCK and SP concentrations were assayed by a specific RIA, as were serum levels of ACTH, corticosterone, PRL, GH, LH and testosterone. Stress had no effect upon SP concentrations in the anterior or posterior parts of the arcuate nucleus (ARC), but led to elevated CCK levels in the posterior ARC following 60 min of exposure. In both the ventromedial and dorsomedial hypothalamic areas, stress induced depletions of both neuropeptides. In the anterior (but not the posterior) portions of the lateral hypothalamic area, CCK and SP concentrations were reduced by stress exposure. These studies demonstrate that discrete hypothalamic CCK and SP neuronal systems are responsive to stress. This suggests that endogenous hypothalamic CCK and SP participate, along with other neurotransmitters/neuromodulators, in the integrated hypothalamic stress response, and mediate stress-neuroendocrine interactions.
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PMID:Stress-induced changes in cholecystokinin and substance P concentrations in discrete regions of the rat hypothalamus. 244 10

The regulatory effects of thyroid hormone on adenohypophysial substance P (SP) were studied in heterotopically implanted anterior pituitaries. Three or four anterior pituitaries from 21-day-old rat pups were implanted under the renal capsule in 175- to 200-g adult rats. The donor and recipient animals were sex matched. One week after implantation, animals were thyroidectomized or sham operated. A separate group of animals received daily T4 treatment (1.5 g/100 g, ip). After 2 weeks, the native and heterotopic pituitaries were assayed for SP, TSH, PRL, and LH. Thyroidectomy resulted in a 3- to 10-fold increase in the SP concentration in both the heterotopic and native pituitaries compared to euthyroid values. T4 treatment suppressed the SP levels in the heterotopic pituitaries of the thyroidectomized rats. In contrast to the reduction of TSH concentrations in native pituitaries in thyroidectomized animals vs. controls, TSH concentrations in the heterotopic pituitaries of thyroidectomized rats were approximately 10 times greater than those in euthyroid animals. PRL concentrations were unaffected by hypothyroidism in native and heterotopic pituitaries. Thyroidectomy resulted in a decrease in LH concentrations in the native anterior pituitary, without affecting LH concentrations in the implanted pituitary. These findings indicate that a direct link from the hypothalamus to the anterior pituitary is not required for the pituitary SP response to hypothyroidism.
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PMID:Hypothyroidism increases substance P concentrations in the heterotopic anterior pituitary. 245 52

Adrenal medullary cells produce not only the catecholamines norepinephrine and epinephrine but also a number of peptides; hence, they can be subclassified according to their peptide quality. The present study was an attempt to test whether different stressors address different subclasses of adrenal medullary cells. The adrenal gland of intact male rats was implanted with a dialysis system, and the jugular vein was catheterized. One day after surgery, the adrenal dialysis system was connected to a perfusion pump, and Ringer solution was used for dialysis; dialysate fractions were collected at 15-min intervals, and blood was withdrawn at the end of each fraction period after a 2-h equilibration period. The basal release rates of pituitary PRL and adrenal corticosterone, measured in plasma, and of epinephrine, norepinephrine, and substance P (SP) measured in the adrenal dialysates, were constant during the preshock period. SP concentrations in the blood were below the detection limit of the RIA. Application of mild electric foot shock stress resulted in a marked increase in adrenal catecholamine and SP release. Plasma PRL and corticosterone levels also rose during the time of exposure to foot shock, but plasma SP concentrations remained at undetectable values. In contrast, a metabolic stress i.e. insulin-induced hypoglycemia, did not affect adrenal SP release, although adrenal catecholamine release increased to a larger degree than after foot shock stress. Plasma PRL and corticosterone levels also increased during insulin-induced hypoglycemia. It is concluded that an exogenous stressor (electric foot shock) activates adrenomedullary cells containing catecholamines and SP, whereas these cells are not activated by the stress of insulin-induced hypoglycemia.
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PMID:Differential response of substance P-containing subtypes of adrenomedullary cells to different stressors. 245 51

Light microscopic double immunocytochemical stainings, performed on sea bass hypothalamo-hypophysial sections, revealed the projection of different neuropeptide-immunoreactive neurons innervating the hormone-producing cell populations in the pituitary gland. In the rostral pars distalis (PD) the ACTH cells were found in close proximity to fibers immunoreactive for somatostatin (SRIF), growth hormone-releasing hormone (GRF), corticotropin-releasing hormone (CRF), vasotocin (VT), isotocin (IT), substance P (SP), neurotensin, and galanin (GAL), while the PRL cell zone seemed only innervated by nerve fibers immunopositive for GAL. In the proximal PD, fibers immunoreactive for SRIF, GRF, VT, IT, cholecystokinin, SP, neuropeptide Y, and GAL formed a close relationship with the growth hormone cells. The gonadotrophs were observed near nerve fibers immunostained for gonadotropin-releasing hormone, IT, and less obviously GRF and VT, while fibers positive for GRF, CRF, VT, IT, SP, and GAL penetrated between and formed a close association with the thyrotrophs. In the pars intermedia the MSH cells and the PAS-positive (PAS+) cells seemed both innervated by separate nerve fibers immunoreactive for GRF, CRF, melanin concentrating hormone, VT, IT, and SP. All these results suggest a functional role of the neuropeptides in the adenohypophysis of the sea bass, possibly in the synthesis and/or release of hypophysial hormones from the different cell types.
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PMID:Immunocytochemical demonstration of close relationships between neuropeptidergic nerve fibers and hormone-producing cell types in the adenohypophysis of the sea bass (Dicentrarchus labrax). 246 54

[125I-Tyr]Somatostatin [( 125I-Tyr]SRIH) binding was found in 11 GH-secreting pituitary adenomas [Kd = 0.46 +/- 0.15 (+/- SE) nM; maximum binding, 165 +/- 35 fmol/mg protein). This binding was specific, since it was displaced by somatostatin-14 (SRIH-14), N-Tyr-SRIH-14, and SRIH-28. In contrast, a number of peptides and drugs not structurally related to SRIH, such as bombesin, dopamine, LHRH, met-enkephalin, naloxone, neurotensin, secretin, substance P, TRH, or vasoactive intestinal peptide, did not affect [125I-Tyr]SRIH binding. [125I-Tyr]SRIH specific binding also was found in PRL-secreting pituitary adenomas. The kinetic characteristics of the specific binding were similar to those of GH-secreting adenomas. However, maximal binding was one quarter that of GH-secreting adenomas (37 +/- 9 fmol/mg protein). In contrast, nonsecreting (chromophobe) tumors were devoid of any specific binding. Finally, in acromegaly, the density of [125I-Tyr]SRIH-binding sites in the adenomas was negatively correlated with plasma GH levels before surgery (r = -0.80). This suggests that somatostatinergic control is involved in GH secretion in acromegalic patients.
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PMID:Somatostatin receptors in human growth hormone and prolactin-secreting pituitary adenomas. 286 Jan 20

AtT20/D16v is a clonal strain of mouse pituitary tumor cells which synthesizes and secretes ACTH. Somatostatin, a hypothalamic tetradecapeptide, has been shown to inhibit the release of PRL, GH, and TSH from the pituitary gland. We have characterized specific binding sites for somatostatin on AtT20/D16v cells and demonstrate that somatostatin inhibits stimulated ACTH release by these cells. Equilibrium binding studies with [125I]Tyr1]somatostatin showed the presence of a single class of noninteracting binding sites on AtT20/D16v cells. Half-maximal binding of somatostatin occurred at 1.7 X 10(-9) M, and there were 26,300 binding sites/cell. The binding of [125I]Tyr1]somatostatin was not significantly inhibited by the hypothalamic peptides TRH, LHRH, and substance P. Somatostatin had no consistent effect on basal ACTH secretion by AtT20/D16v cells, but it inhibited ACTH secretion stimulated with either 50 mM KCl or a hypothalamic extract. Half-maximal inhibition occurred with 4 X 10(-10) M somatostatin. TRH, LHRH, and substance P at concentrations of 10(-7) M were without effect. Somatostatin had no effect on either basal or stimulated hormone secretion by GH12C1 or F4C1 cells, two cell strains which lack specific somatostatin-binding sites. A critical concentration of extracellular calcium was required for the stimulation of ACTH secretion in AtT20/D16v cells. No response to 50 mM KCl occurred in the presence of EGTA or cobalt. Increased extracellular calcium overcame the inhibition of stimulated hormone secretion by EGTA, cobalt, and somatostatin. Therefore, we conclude that the inhibition of stimulated ACTH secretion by somatostatin involves the interaction of the peptide with specific binding sites on AtT20/D16v cells and the inhibition of stimulus-elicited calcium influx.
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PMID:Inhibition of adrenocorticotropin secretion by somatostatin in pituitary cells in culture. 610 20

[125I]Iodo-Tyr1-somatostatin (SRIF) binds with high affinity to one class of sites in the rat anterior pituitary with a KD of 0.91 +/- 0.22 nM and a receptor concentration of 104.4 +/- 1.9 fmol/mg protein. This binding is saturable with respect to tissue concentration and is time-, temperature-, pH-, and calcium-dependent. It is also reversible as a function of time. The rates of association and dissociation were calculated to be 5.98 X 10(7) M-1 min-1 and 0.578 min-1, respectively. Binding of [125I]iodo-Tyr1-SRIF is not inhibited by morphine, beta-endorphin, [D-Ala2]Met-enkephalin, LHRH, TRH, histidylproline diketopiperazine, neurotensin, substance P, bombesin or vasoactive intestinal peptide. In contrast SRIF, [Tyr1]SRIF, and [D-Trp8,D-Cys14]SRIF displace [125I]iodo-Tyr1-SRIF binding with Ki values 0.10 +/- 0.05, 0.46 +/- 0.18, 0.05 +/- 0.01 nM, respectively. The constants of inhibition of a series of alanine monosubstituted analogs of SRIF are correlated (r = 0.89) with their biological potency on GH secretion. Furthermore, postnatal development patterns of [125I]iodo-Tyr1-SRIF binding sites follow the ability of SRIF to inhibit GH release. Thus, [125I]iodo-Tyr1-SRIF binding to adenohypophyseal membranes seems to reflect interaction with SRIF receptors on adenohypophyseal cells. Since biological effects of the peptide have been reported on GH, thyrotropin-stimulating hormone, and PRL secretion, further studies are required to determine the cell types upon which this binding occurs.
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PMID:Somatostatin receptors on rat anterior pituitary membranes. 612 57

A variety of neuropeptides, such as TRH, somatostatin, VIP, Substance P, neurotensin, CCK, gastrin, and opioid peptides, alter secretion of GH and PRL from the pituitary. These actions differ according to the route of administration or with experimental conditions, especially anesthesia. Among these peptides, the most consistent results have been obtained with opioid peptides, which stimulate GH and PRL release. Both beta-endorphin and enkephalins are capable of stimulating GH and PRL release in anesthetized and unanesthetized, freely moving rats. The effect is blocked by naloxone, an opiate receptor antagonist. GH secretion induced by opioid peptides seems to be mediated by an alpha-adrenergic mechanism, since treatment with DDC and fusaric acid, which are dopamine-beta-hydroxylase inhibitors, reserpine, and phenoxybenzamine which is an alpha-adrenergic blocking agent, blunted GH secretion. However, pimozide, a dopamine receptor antagonist, and propranolol, a beta-adrenergic blocking agent, were without effect. On the other hand, basal PRL secretion was augmented by pimozide, suggesting the possible involvement of dopamine. It is also possible that serotonin is involved in the GH and PRL release induced by opioid peptides. The physiological significance of opioid peptides in regulating GH and PRL secretion is still unclear. Contradictory results (12,25) have been obtained concerning the effect of naloxone on basal or stimulated GH and PRL secretion in rats, monkeys and humans when tested by the continuous blood sampling method, which rules out the erroneous evaluation of results caused by episodicity of plasma hormone levels. Further studies should clarify the physiological role of opioid peptides in regulating pituitary function.
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PMID:Effect of CNS peptides on hypothalamic regulation of pituitary secretion. 701 Sep 47

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