UNIPROT:P20366 - FACTA Search

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

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

The authors describe the anatomical features and physiological properties of central serotonergic neurons. The central serotonin neurons (part of which store peptides [substance P, TRF, enkephalins] in addition to 5HT) are highly collateralized reticular-type brain stem neurons receiving multi-modal afferent information from ascending sensory and descending motor pathways. They are under control by noradrenergic, peptidergic and and gaba-ergic projection neurons and interneurons. Furthermore, they establish variable synaptoid and synaptic contacts to neuronal, glial and secretory targets throughout the entire neuraxis and send terminal branches into the ventricular CSF space. Firing rate and transmission activity appear to be controlled in a complex and rather rigid manner by 5HT release-dependent dendrodendritic and dendrosomatic inhibition via autoreceptors (which also regulate release at the axon terminals) and via transsynaptic inhibitory feedback circuits which may involve gabaergic projection and interneurons. 3H-imipramine appears to bind to an "imipramine recognition site" in the vicinity of the 5HT carrier, and to a variety of other transport and (postsynaptic) receptor sites (NA uptake, H1, 5HT2- and alpha 1-binding sites). Circumstantial evidence points to an as yet undetermined role of the postsynaptic 5HT-1-binding sites in neurotransmission. 5HT-2-binding sites fulfil the criteria for receptors: binding affinity of antagonists to these sites correlates significantly with their potency to inhibit behavioral excitation in rats elicited by 5-hydroxytryptophan or 5HT agonists.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Anatomical features and physiological properties of central serotonin neurons. 299 53

Recent developments in thyroid hormone metabolism have helped to understand the complex events which characterize the regulation of TSH secretion. Plasma T3 concentration as well as intrapituitary T3 generation from T4, exert a profound effect on TSH synthesis and release. Pituitary Type II deiodinase differs from Type I deiodinase found in other tissue such as liver and kidney, and in fact different conditions such as hypothyroidism and hyperthyroidism affect these enzymes in opposite direction. Thyroid hormones exert other effects on the pituitary such as increased synthesis of substance P, increased synthesis of GH, and decreased TRH receptors, TRH also modifies its own receptors in the pituitary and exerts modulatory effects on TSH molecule. Patients with non thyroidal illness may display TSH molecules with decreased biological activity. Various agents used in every day praxis may alter TSH and thyroid secretion. The physician must be aware of changes in order to avoid diagnostic pitfalls.
...
PMID:Pituitary-thyroid interaction: effects of thyroid hormone, non thyroidal illness and various agents on TSH secretion. 314 May 59

Using an antiserum (no. 373) raised against a tyrosinated analog of preproTRH53-74 [( Tyr1]preproTRH53-74 or pYT 22), we have demonstrated the presence of a discrete population of immunoreactive neurons in the midbrain periaqueductal gray (PAG). Relative to the distribution of serotonin, somatostatin, peptide histidine isoleucine (PHI), methionine enkephalin, substance P and neurotensin-containing neuronal perikarya in the PAG, neurons containing immunoreactive pYT 22 occupied a unique location in the ventrolateral PAG. In contrast, terminal fields containing these neuroactive substances with the exception of PHI, were seen in abundance in the region of the ventrolateral PAG neurons. These studies indicate that a non-TRH sequence contained within the N-terminal portion of the TRH prohormone are expressed in a distinct group of neurons in the ventrolateral PAG. The location of these neurons in the PAG in a region richly innervated by nerve terminals containing analgesia-mediating substances, suggests a possible role for proTRH-derived peptides in the modulation of nociception.
...
PMID:Neurons containing a N-terminal sequence of the TRH-prohormone (preproTRH53-74) are present in a unique location of the midbrain periaqueductal gray of the rat. 314 23

In experimental models of spinal cord trauma there is often a relatively poor correlation between light microscopic histological changes and motor recovery. Previously it was shown that spinal cord levels of immunoreactive TRH and substance P, by radioimmunoassay, are significantly reduced caudal to the injury site. Since much of the substance P and TRH in the spinal cord derives from cells within the ventral medulla, many of which also contain serotonin, we examined changes in serotonin immunoreactivity within the spinal cord caudal to the injury site in rats subjected to varying degrees of impact trauma to the thoracic cord. Reductions in immunocytochemical staining of serotonin in ventral gray matter of the lumbar region at two weeks after trauma were significantly correlated with the degree of injury severity as reflected by motor impairment. Changes in the region of the central canal, but not dorsal horn, were also correlated with injury severity. These findings indicate that serotonin immunocytochemical analysis may permit better correlation between anatomical and functional outcome after spinal cord injury than generally utilized light microscopic methods.
...
PMID:Use of serotonin immunocytochemistry as a marker of injury severity after experimental spinal trauma in rats. 340 25

Centrally administered neuropeptides were investigated for their effects on the development of gastric lesions in rats. Thyrotropin releasing hormone (TRH), vasoactive intestinal peptide (VIP) and gonadotropin releasing hormone (LHRH) produced gastric lesions acutely, with TRH demonstrating the most pronounced effect in terms of incidence and severity. Ten-fold higher doses of the same peptides administered intravenously produced none or very few gastric lesions. Moreover, pretreatment with atropine partially inhibited their production. Corticotropin releasing factor (CRF) exhibited only mild ulcerogenic effects, and the gastric lesions induced with this peptide developed more slowly than with TRH, VIP and LHRH. Although ulcerogenic in their own right, none of these four neuropeptides significantly potentiated the potent ulcerogenic effects of cold-restraint stress. Since other neuropeptides, including somatostatin, human pancreatic growth hormone releasing factor (hpGRF), substance P, bombesin, and neurotensin, had no demonstrable effects on gastric mucosa, we can conclude that the lesions were not a general effect of intracisternal administration of neuropeptides. The results suggest that within the central nervous system, there are several neuropeptides that play a significant role in the development of gastric lesions via, at least in part, vagal-dependent mechanisms.
...
PMID:The effects of centrally administered neuropeptides on the development of gastric lesions in the rat. 392 Apr 62

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.
...
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.
...
PMID:Somatostatin receptors on rat anterior pituitary membranes. 612 57

To clarify whether various neuropeptides found in the hypothalamus act directly on a pituitary adenoma causing Nelson's syndrome, we examined the influence of these peptides on the secretion of immunoreactive ACTH, beta-endorphin, and melanotropins, the proopiomelanocortin (POMC)-derived peptides, by the cultured pituitary adenoma from a patient with Nelson's syndrome. Results showed that somatostatin-14 and somatostatin-28 suppressed the secretion of POMC-derived peptides by the adenoma and that somatostatin-28 was as potent as somatostatin-14. Other neuropeptides such as arginine vasopressin, vasoactive intestinal polypeptide, and oxytocin stimulate the secretion of POMC-derived peptides. Substance P, TRF, Met-enkephalin and Leu-enkephalin were also found to modulate the secretion of POMC-derived peptides. This suggests that the adenoma may have multiple receptors to various neuropeptides.
...
PMID:Effects of various neuropeptides on the secretion of proopiomelanocortin-derived peptides by a cultured pituitary adenoma causing Nelson's syndrome. 612 87

Male Sprague-Dawley rats were trained to discriminate ethanol (2 g/kg, PO: EtOH) from saline (10 ml/kg, PO: SAL) in a two-bar positively reinforced operant task on a VI 15 sec schedule. After the rats reached criterion performance (greater than 90% correct responses on the appropriate lever), thyrotropin releasing hormone (pyroGlu-His-Pro-NH2: TRH), a metabolite of TRH (His-Pro diketopiperazine: HP), and a structural analog of TRH (HPCA-His-ThiaPro-NH2: OHT) were tested for their ability to antagonize the EtOH cue. These peptides were chosen for their reported ability to reverse ethanol-induced narcosis. However, at doses that did not disrupt performance, TRH, HP, and OHT did not affect the stimulus properties of ethanol at any dose tested, nor did they change the stimulus properties of saline. Naloxone and ACTH(1-10)-NH2 were also tested as ethanol antagonists of the training dose. Pretreatment with either of these compounds failed to alter ethanol-appropriate responding. In addition, (DA1a2-Met5)-enkephalin-ol, (DAla2-Met(O)5)-enkephalin-ol, substance P, delta sleep-inducing peptide, and bombesin were tested for their ability to elicit ethanol appropriate responding. The EtOH cue generalized to none of these peptides.
...
PMID:The effects of peptides on the stimulus properties of ethanol. 615 98

A number of in vitro preparations of the central nervous system have been used to characterize with intracellular recording the cellular actions of four neuropeptides. Carnosine, the putative excitatory neurotransmitter of olfactory nerves, was found to exert little or no effect in the turtle or the frog olfactory bulb, suggesting that this peptide may have other roles, e.g. neurotropic, in this system. Substance P and TRH were found to have some characteristics of a classical excitatory transmitter since they increase membrane conductance and depolarize frog motoneurons by a direct action. However, the slow time course and subthreshold nature of the depolarization may imply that these peptides function in a background manner to set the level of excitability of motoneurons. Finally, the effects of enkephalin on a variety of inhibitory systems have been examined. Enkephalin excites hippocampal pyramidal cells indirectly by blocking both spontaneous and evoked inhibitory potentials. In addition, both feedforward and feedback inhibitory pathways are depressed by enkephalin. All these effects are blocked by naloxone. Blockade of inhibitory pathways by enkephalin appears to be a general phenomenon, since similar depressant effects were seen for dendrodendritic inhibition in olfactory bulb mitral cells as well as for presynaptic inhibition of spinal primary afferents. These results indicate that neuroactive peptides can affect principal neurons by increasing their excitability via either subthreshold excitation or disinhibition.
...
PMID:Peptides as putative excitatory neurotransmitters: carnosine, enkephalin, substance P and TRH. 615 51

<< Previous 1 2 3 4 5 6 7 8 Next >>