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)

The neuropeptide cholecystokinin(26-33) (CCK) is widely distributed in the mammalian central nervous system, including the spinal cord. We have studied the possible interaction of CCK with GABA release mechanisms. Low doses of CCK-8 (1 nM) have been found to evoke calcium-dependent [3H]GABA release from an in vivo perfused spinal cord preparation in the anaesthetized rat. Tachyphylaxis was seen to the [3H]GABA releasing action of CCK-8. The injection of proglumide (150 mg/kg i.p.) totally blocked the [3H]GABA release produced by CCK-8 or by a medium containing 50 mM potassium. Substance P (10 microM) did not produce release of [3H]GABA, although in the same animals 50 mM potassium containing solutions could be shown to evoke release of [3H]GABA.
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PMID:Cholecystokinin releases [3H]GABA from the perfused subarachnoid space of the anaesthetized rat spinal cord. 245 Mar 6

Intracellular recordings were made in vitro from neurons in the myenteric plexus of freshly dissected preparations of the duodenum of the rat. Nearly one-quarter of neurons (18 out of 77) had long after-hyperpolarizations following their action potentials. Over 60% of neurons (20 out of 32) which were tested exhaustively by focal stimulation at seven points around the recording site were seen to receive fast excitatory synaptic inputs. These were of very short duration (10-30 ms) and were reversibly blocked by the nicotinic antagonist hexamethonium. Only four out of 18 after-hyperpolarization cells (22%) had visible fast synaptic inputs. Seven out of 32 neurons tested received slow excitatory synaptic inputs lasting up to 60 s that were associated with a decrease in conductance and an increase in excitability. No evidence for muscarinic synaptic potentials was seen; only four cells out of 30 with fast excitatory postsynaptic potentials had slow excitatory synaptic potentials visible after a single-shot stimulus; in none of these were the slow excitatory postsynaptic potentials blocked by atropine (up to 1 x 10(-5) M). No inhibitory postsynaptic potentials were recorded in any of the 77 neurons recorded in this study. The effects of five neurotransmitter candidates (acetylcholine, GABA noradrenaline, 5-hydroxytryptamine and substance P) applied by pressure microejection were studied. It is concluded that most of the neurophysiological features reported in the extensively studied guinea-pig small bowel myenteric plexus are present in the rat duodenum. However, the apparent lack of muscarinic synaptic potentials and inhibitory synaptic potentials suggests that there may be some differences between the two species. Our recordings also differ slightly from recently reported studies of rat myenteric neurons grown in cell culture.
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PMID:Intracellular recordings from cells in the myenteric plexus of the rat duodenum. 245 95

The effects of injections of the neuropeptide substance P or the GABA agonist muscimol on performance of a step-down inhibitory avoidance task were examined. Immediately after the training trial, rats with chronically implanted cannulas were injected with 100 or 10 ng of substance P or 500 or 50 ng of muscimol into the region of the nucleus basalis magnocellularis. Control groups included vehicle-injected rats, a sham-operated group, a substance P 5-h delay group, and a substance P no-footshock group. Rats injected with 100 ng of substance P exhibited longer step-down latencies when tested 24 h later than did vehicle-injected rats. The retention latencies for rats in the substance P 5-h delay group did not differ from those of vehicle-injected animals, indicating that proactive effects on performance were not responsible for the effect. In contrast to injections of SP, injections of 500 or 50 ng of muscimol disrupted performance. However, in the absence of a delayed-injection control group, proactive effects cannot be ruled out.
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PMID:Enhanced inhibitory avoidance learning produced by post-trial injections of substance P into the basal forebrain. 245 61

Several neuropathologic studies have suggested that there may be pathologic involvement of the cerebellum in Huntington's disease (HD). To investigate this further, we measured concentrations of neurotransmitter amino acids and the neuropeptides, somatostatin, neuropeptide Y and substance P, in HD cerebellar cortex and dentate nucleus. Twenty-seven pathologically confirmed cases of HD were compared with 20 controls. There were no significant changes in concentrations were significantly increased by 21% in HD cerebellar cortex. In the dentate nucleus, there were small significant increases of neuropeptide Y-like immunoreactivity and substance P-like immunoreactivity. The meaning of the neurotransmitter changes found is unclear: however, the lack of change in GABA and glutamate concentrations argues against a substantial loss of intrinsic cerebellar neurons.
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PMID:Amino acid and neuropeptide neurotransmitters in Huntington's disease cerebellum. 245 9

The coexistence of immunoreactivities for glutamic acid decarboxylase (GAD), tyrosine hydroxylase (TH) and substance P (SP) was revealed in the hamster main olfactory bulb, using the peroxidase-antiperoxidase immunohistochemical method. Adjacent 40 micron thick Vibratome sections were incubated in different antisera and those cells which were bisected by the plane of sectioning were identified at the paired surfaces of two consecutive sections. The coexistence of the immunoreactivities for 1) TH and GAD, 2) TH and SP and 3) GAD and SP in the same cells could thus be determined by observing the immunoreactivity of the two halves of the cell incubated in two different antisera. About 70% of TH-like immunoreactive (TH-LI) neurons in the periglomerular region also contained GAD-like immunoreactivity, whereas about 45% of GAD-LI ones were also TH-like immunoreactive. Furthermore, almost all (more than 95%) of SP-LI neurons contained both GAD-like and TH-like immunoreactivities. These observations indicate that in the periglomerular region of the hamster main olfactory bulb, some neurons (about 9% of all neurons containing TH-like and/or GAD-like immunoreactivities) may contain three different categories of neuroactive substances, that is, amino acid (GABA), amine (dopamine) and peptide (SP).
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PMID:Possible coexistence of amino acid (gamma-aminobutyric acid), amine (dopamine) and peptide (substance P); neurons containing immunoreactivities for glutamic acid decarboxylase, tyrosine hydroxylase and substance P in the hamster main olfactory bulb. 245 79

Quinolinic acid (QA) is an endogenous excitotoxin present in mammalian brain that reproduces many of the histologic and neurochemical features of Huntington's disease (HD). In the present study we have examined the ability of a variety of systemically administered compounds to modify striatal QA neurotoxicity. Lesions were assessed by measurements of the intrinsic striatal neurotransmitters substance P, somatostatin, neuropeptide Y, and GABA. Histologic examination was performed with Nissl stains. The antioxidants ascorbic acid, beta-carotene, and alpha-tocopherol administered s.c. for 3 d prior to striatal QA lesions had no significant effect. Other drugs were administered i.p. 1/2 hr prior to QA striatal lesions. The following were ineffective in blocking QA excitotoxicity: allopurinol, 50 and 100 mg/kg; ketamine, 75 mg/kg; nimodipine, 2.4, and 10 mg/kg; baclofen, 10 mg/kg; 2-amino-5-phosphonovalerate, 50 mg/kg; and 2-amino-7-phosphonoheptanoate, 50 mg/kg. Oral taurine administration for 4 weeks resulted in significantly increased levels of brain taurine but had no significant effect in blocking QA neurotoxicity. Systemic administration of the noncompetitive N-methyl-D-aspartate (NMDA) antagonist MK-801 resulted in a dose-responsive protection against QA toxicity, with complete block at a dose of 4 mg/kg. If the pathogenesis of HD involves QA or another excitotoxin acting at the NMDA receptor, it is possible that MK-801 could retard the degenerative process.
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PMID:Systemic approaches to modifying quinolinic acid striatal lesions in rats. 246 37

Sympathetic preganglionic neurones that innervate the adrenal medulla were identified for subsequent light and electron microscopic study by the retrograde transport of horseradish peroxidase (HRP) or a conjugate of HRP and cholera B-chain. Most labelled neurones were found in the intermediolateral column, but some occurred in the intercalated nucleus and in the lateral funiculus of the thoracic spinal cord. Three morphologically distinct types of neurone were retrogradely labelled, two of which had dendrites that extended medially towards the central canal and laterally across the entire lateral funiculus. A combination of retrograde labelling with pre-embedding immunocytochemistry allowed us to demonstrate synaptic contacts between boutons immunoreactive for substance P or 5-hydroxytryptamine (5-HT) and the cell bodies or proximal dendrites of sympathoadrenal neurones. The 5-HT-immunoreactive boutons appeared to be of two morphologically distinct types. Postembedding immunocytochemistry enabled us to show that sympathoadrenal neurones receive a heavy synaptic innervation from GABA-immunoreactive boutons: 32% of a random series of boutons in synaptic contact with cell bodies were GABA-immunoreactive. Proximal dendrites and also distal dendrites within the white matter were ensheathed in synaptic boutons, 37% of which were GABA-immunoreactive. It is concluded that sympathoadrenal neurones receive at least 4 distinct types of afferent synaptic input: from neurones containing substance P, or GABA and from two types of neurones containing 5-HT. The presence of synaptic inputs on distal dendrites that extend across the white matter adds further complexities to the control of the activity of sympathetic preganglionic neurones.
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PMID:Preganglionic sympathetic neurones innervating the rat adrenal medulla: immunocytochemical evidence of synaptic input from nerve terminals containing substance P, GABA or 5-hydroxytryptamine. 246 97

There is evidence for the view that both up- and downregulation of nigral GABA may give rise to dyskinetic movements. Intranigral infusion of GABA agonists causes stereotyped licking and gnawing in rats, while intranigral GABA antagonists produce vacuous chewing movements. It is hypothesized that during long-term neuroleptic treatment there may be a succession of changes within striatonigral GABA neurons: down-regulation caused by neuroleptic drugs may increase receptor sensitivity, and this may lead to overcompensation and withdrawal dyskinesia during periods of cessation of drug treatment. Reduced nigral GAD activity may be a marker of irreversible brain damage and has not been observed in all chronic experiments, but only in individuals with long-standing or irreversible dyskinesia. Changes within the GABA system seem to be accompanied by changes in the striatal and nigral levels of substance P.
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PMID:Neurobiochemical changes in tardive dyskinesia. 246 1

Regulation of neuronal calcium channels by GTP-binding proteins (G proteins) is likely to be an important mechanism by which inhibitory transmitters influence excitation-secretion coupling in presynaptic nerve endings. Here, we report that in peripheral sensory neurons from embryonic chick dorsal root ganglia (DRG), the G protein-mediated inhibition of voltage-dependent calcium channels may best explain how norepinephrine (NE) and GABA inhibit the electrically evoked, calcium-dependent release of substance P (SP). As is the case for the previously reported inhibitory actions of these transmitters on DRG cell calcium channels, we demonstrate that NE and GABA inhibit peptide secretion through activation of alpha-adrenergic and GABAb receptors that are functionally coupled to pertussis toxin (PTX)-sensitive G proteins. Pretreatment of DRG cell cultures with PTX blocked the ability of NE and GABA to inhibit the release of SP, an action correlated with PTX-catalyzed ADP-ribosylation of membrane proteins with apparent molecular weight (Mr) of 40-41 kDa. Western immunoblot analysis of chick DRG cell membrane proteins using antisera directed against synthetic peptides corresponding to amino acid sequences predicted from cDNAs for PTX-sensitive G protein alpha subunits revealed a minimum of 2 Gi-like proteins (Mr 40 and 41 kDa) and a third Go-like protein (Mr 40 kD). Significantly, these findings implicate Gi- and/or Go-like GTP-binding proteins as mediators of presynaptic inhibition in peripheral sensory neurons.
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PMID:G proteins couple alpha-adrenergic and GABAb receptors to inhibition of peptide secretion from peripheral sensory neurons. 246 94

Antinociceptive effects of baclofen, a gamma-aminobutyric acidB (GABAB) agonist, were studied in mice along with other GABAergic agents, all administered intrathecally (i.t.): i.e., muscimol (GABAA agonist), bicuculline (GABAA antagonist) and 5-aminovaleric acid (GABAB antagonist). After i.t. administration, none of the four compounds increased the withdrawal latency in the tail-flick test. With the intradermal hypertonic saline (6% saline) behavioral test, baclofen decreased the number of behaviors in a dose-dependent and 5-aminovaleric acid-reversible manner, whereas i.t. administered muscimol was ineffective. With the i.t. substance P (SP) behavioral test, muscimol was again ineffective, whereas the SP-induced behaviors were differentially modified by baclofen depending on the temporal order of their i.t. administration. Although baclofen, coadministered with SP, decreased the number of SP-induced behaviors, baclofen pretreatment (2-100 min before i.t. administration of SP) increased the number of behaviors in a dose-dependent and 5-aminovaleric acid-reversible manner. Two minutes after several fixed doses of baclofen were administered i.t., dose-response curves for induction of behaviors by SP (i.t.) were shifted progressively to the left by increasing doses of baclofen, suggesting that hypersensitivity to SP had developed during this time frame. Decreased responsiveness to a peripheral noxious stimulus (hypertonic saline-induced behavior) is therefore associated with hypersensitivity to i.t. applied SP (SP behavioral test). The selective action of a GABAB agonist on neurokinin-elicited behaviors shown in this study is in clear contrast to the selective action of a GABA agonist against excitatory amino acid spinal activity noted in the following paper.
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PMID:Baclofen, gamma-aminobutyric acidB receptors and substance P in the mouse spinal cord. 246 77

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