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

The long-term administration of neuroleptics causes tardive dyskinesia, which closely resembles levodopa-induced dyskinesias, and is brought about through complex mechanisms which are ill-defined. It is generally believed that the pathogenesis of tardive dyskinesia relates closely to the chronic blockade of dopamine receptor sites and that its pathophysiology results from a hypersensitivity of dopamine receptor sites. In the therapeutic management of neuroleptic-induced tardive dyskinesia, in addition to reserpine and lithium, diazepam, baclofen, or gamma-vinyl-gamma-aminobutyric acid have also been advocated. However, the reported beneficial effects of diazepam and GABA-mimetic agents in ameliorating the symptoms of tardive dyskinesia may occur through a mechanism which does not necessarily link transmission involving both dopamine and GABA. The presence of high concentrations of both cholecystokinin and opioids in the striatum also suggests that these peptides not only may influence dopaminergic transmission, but that they may also be relevant to the psychopathology of schizophrenia and to the therapeutic effects of neuroleptics. Indeed, the acute and chronic administration of neuroleptics alters the levels of cholecystokinin and opioids and their receptors in several brain regions including the striatum. However, neuroleptics also alter the biochemical integrity of neurotensin, neuropeptide Y, substance P and somatostatin, which may also play a role in the overall expression of the neuroleptic-induced extrapyramidal reactions.
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PMID:Dopamine, GABA, cholecystokinin and opioids in neuroleptic-induced tardive dyskinesia. 290 20

The pattern of developmental changes in concentrations of substance P, somatostatin and neuropeptide Y immunoreactivity and amino acids was studied in baboon cortex. Samples of occipital or frontal neocortex were obtained from preterm (100-105 days gestation), near-term (170-176 days gestation), and young adult animals. Substance P concentrations were low at preterm, highest at near-term, and then declined to adult levels. Neuropeptide Y and somatostatin immunoreactivity increased steadily across the three age groups. Concentrations of aspartate and gamma-aminobutyric acid (GABA) also increased progressively from preterm to adulthood, whereas glutamate concentrations showed small increases that were not statistically significant. Concentrations of taurine and alanine were highest preterm and declined progressively to adulthood. Levels of neuropeptides and amino acids show distinct patterns of change during development of neocortex in the baboon.
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PMID:Developmental changes of neuropeptides and amino acids in baboon cortex. 290 20

Effects of cholecystokinin (CCK) and gastrin on the release of acetylcholine (ACh) and gamma-aminobutyric acid (GABA) were examined in the longitudinal muscle with myenteric plexus (LM-MP) preparations of the guinea pig small intestine. CCK and gastrin induced the Ca++-dependent and tetrodotoxin-sensitive release of [3H]ACh from the LM-MP preparations preloaded with [3H]choline. Proglumide, but not scopolamine, hexamethonium and [D-Pro2,D-Trp7,9]substance P inhibited the release of [3H]ACh induced by CCK and gastrin. The desensitization to CCK and gastrin was observed with a 30-min exposure of the preparation to CCK and gastrin, respectively, and the cross-desensitization to peptides was not observed, thereby indicating that these peptides induce the release of ACh mainly via respective receptors. Bicuculline which inhibited completely the release of [3H]ACh induced by GABA inhibited the release of [3H]ACh induced by CCK but not by gastrin by 42.3 +/- 4.22%. CCK, but not gastrin, produced the Ca++-dependent and tetrodotoxin-sensitive release of endogenous GABA and [3H]GABA from LM-MP preparations preloaded with [3H]GABA. The release of [3H]GABA induced by CCK was antagonized by proglumide, but not by scopolamine, hexamethonium and [D-Pro2,D-Trp7,9]substance P. These results provide evidence that the GABAergic neuron is stimulated by CCK, but not by gastrin and stimulates the cholinergic neuron.
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PMID:Cholecystokinin, but not gastrin, induces gamma-aminobutyric acid release from myenteric neurons of the guinea pig ileum. 291 83

In rats, bilateral injection of muscimol (30-60 ng/site) into the medial substantia nigra zona reticulata exerted an antinociceptive effect in the hotplate and tail-flick tests. Injections of muscimol into the substantia nigra also induced intense stereotyped behavior and self-injurious behavior (SIB). Tail-flick and hindpaw-lick responses were inhibited between 30 and 120 min after muscimol, but recovered by 240 min. The antinociceptive responses were not due to motor impairment or ataxia induced by muscimol because a variety of highly-coordinated stereotyped behavioral responses, including rearing, sniffing, head bobbing and licking occurred concurrently. Injection of muscimol into the deep mesencephalic nucleus (DpMcN) also inhibited the tail-flick and hindpaw-lick responses and caused stereotyped behavior but did not induce self-injurious behavior. Injections of muscimol into the substantia nigra, angled (45 degrees) to avoid passing through the deep mesencephalic nucleus, still exerted antinociceptive activity and caused self-injurious behavior. Bilateral microinjections of baclofen (300 ng), 4,5,6,7-tetrahydroisoxazols (5,40c)pyridin-3-ol (THIP; 300 ng), sodium valproate + D,L-diaminobutyric acid (1 microgram), substance P (2.5 micrograms) or D-Pro2-D-Trp7.9-substance P (2.5 micrograms), all suppressed hindpaw-lick responses, although only THIP reduced tail-flick responses. None of these treatments evoked self-injurious behavior. Naloxone (10 mg/kg), picrotoxin (5 mg/kg) or atropine (10 mg/kg) injection of muscimol into the substantia nigra (60 ng) or a single pretreatment with p-chlorophenylalanine diethyl ester (PCPA; 500 mg/kg; 48 hr prior to muscimol) failed to suppress the hindpaw-lick response or self-injurious behavior. These results suggest that the injection of muscimol into the substantia nigra evokes a centrally-mediated antinociception which alone is not sufficient to induce self-injurious behavior. Both antinociception and self-injurious behavior after injection of muscimol into the substantia nigra appear unrelated to cholinergic, serotoninergic, or naloxone-sensitive nociceptive systems; however, the role of activation of gamma-aminobutyric acid (GABA) receptors in these actions of muscimol also remains to be clarified.
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PMID:Evaluation of the role of antinociception in self-injurious behavior following intranigral injection of muscimol. 294 27

The substantia nigra has been identified as a critical site at which gamma-aminobutyric acid (GABA) agonist drugs act to reduce susceptibility to a number of types of experimentally induced generalized seizures. Moreover, the ability of systemically administered GABA-elevating agents to protect against maximal electroshock seizures is directly correlated with an increase in GABA specifically in the nerve-terminal compartment of substantia nigra. The significance of these findings is discussed in terms of the role of specific nigral synapses for the control of seizure propagation. Evidence from lesion studies, as well as studies with opiates and substance P analogs, further supports the hypothesis that Inhibition of nigral efferents reduces susceptibility to generalized seizures. Inhibition of nigral outflow causes a decreased sensitivity to chemoconvulsants without precluding the animal's ability to exhibit any or all of the motor components of a seizure. We therefore propose that nigral outputs are capable of facilitating seizure propagation and can function as a gating mechanism for the generalization of convulsive activity.
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PMID:Mechanisms of seizure control mediated by gamma-aminobutyric acid: role of the substantia nigra. 298 54

In the chick ciliary ganglion, preganglionic terminals maintain cholinergic synapses on the choroid neurons and both cholinergic and electrical synapses on the ciliary neurons. The preganglionic terminals also contain enkephalin- and substance P-like immunoreactivity, suggesting that transmission through the ganglion is more complicated than is indicated by the known synaptic connections. We report here that embryonic chick ciliary ganglion neurons also have gamma-aminobutyric acid (GABA) receptors and that GABA applied to the ganglion can block transmission elicited by preganglionic stimulation. Studies on the neurons in cell culture indicate that the GABA response is mediated by GABAA receptors: GABA activates a Cl- conductance, and the response can be mimicked by muscimol and blocked by bicuculline or picrotoxin. The GABA receptors are regulated independently from acetylcholine (ACh) receptors on the neurons since the levels of ACh and GABA sensitivity are influenced differently by culture age and by chronic exposure to GABA or elevated K+ concentrations. Application of GABA to intact ciliary ganglia increases the membrane conductance of ganglionic neurons (as in culture), reduces to subthreshold the amplitude of excitatory postsynaptic potentials in the neurons elicited by preganglionic stimulation and completely blocks transmission through the ganglion. A native source of ligand for the receptors in vivo has yet to be identified.
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PMID:gamma-Aminobutyric acid receptors on chick ciliary ganglion neurons in vivo and in cell culture. 299 7

Serotonin and muscarinic acetylcholine (ACh) receptors were clearly induced in Xenopus oocyte injected with mRNA prepared from the small intestines of rats. Their response to ACh and serotonin was composed of 4 distinct components: fast and slow depolarization, slow hyperpolarization and large membrane potential fluctuation. About three-quarters of the injected oocytes responded to substance P. The response of the injected oocytes to substance P was transient and decayed even in the presence of substance P, indicating the presence of desensitization. However, the injected oocytes showed no response to 6 other drugs analyzed: adrenaline, noradrenaline, dopamine, gamma-aminobutyric acid, glycine and glutamate.
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PMID:Induction of muscarinic acetylcholine, serotonin and substance P receptors in Xenopus oocytes injected with mRNA prepared from the small intestine of rats. 303 74

Recent studies have demonstrated that the neurons of the lower brainstem that are responsible for maintaining normal levels of arterial pressure reside in a specific area of the rostral ventrolateral medulla. In rat, the critical zone corresponds to a small region containing a subpopulation of the adrenergic C1 group, defined immunocytochemically by the presence of the epinephrine-synthesizing enzyme phenylethanolamine N-methyltransferase. Neurons of this region (the C1 area), possibly including the adrenergic neurons, directly innervate preganglionic neurons in the spinal cord, and are tonically active and sympathoexcitatory. The excitatory transmitter released into the spinal cord is unknown. The discharge of C1 area neurons is locked to the cardiac cycle and, in turn, leads to firing of sympathetic preganglionic neurons. The C1 area neurons are inhibited by baroceptor input and mediate the vascular component of baroceptor reflexes. They also mediate somato-sympathetic pressor responses from skin and muscle and participate in reflex responses to hypoxia. The neurons are directly innervated by local neurons containing gamma-aminobutyric acid, acetylcholine, enkephalin, and substance P, all of which modulate arterial pressure. The C1 area is the site of the hypotensive actions of clonidine. Clonidine appears to act on imidazole receptors in the C1 area to lower arterial pressure. The natural ligand for these receptors may be a newly defined substance in brain, clonidine-displacing substance. Neurons of the C1 area appear to be the critical neuronal group governing the normal resting and reflex control of arterial pressure. They may play a critical role in the maintenance of elevated arterial pressure in hypertension and as a site of action of antihypertensive drugs.
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PMID:The C1 area of the brainstem in tonic and reflex control of blood pressure. State of the art lecture. 327 78

The distribution of substance P-like immunoreactivity within the squid retina and brain was studied by immunofluorescence. Positive immunoreactivity was observed as a single layer of fibres in the retina. The retina was devoid of tyrosine-hydroxylase, serotonin, gamma-aminobutyric acid, cholecystokinin, neuropeptide Y, somatostatin, enkephalin and vasoactive intestinal peptide immunoreactivities. Substance P immunoreactivity was particularly abundant in the optic lobe. The optic lobe had a distinct layer of substance P fibres near the periphery. Immunoreactive cell bodies, fibres and varicosities were additionally present in various areas of the optic lobe. Substance P immunoreactivity in the other ganglia of the brain was restricted to a few scattered fibres.
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PMID:Substance P-like immunoreactivity in the retina and optic lobe of the squid. 353 37

The release of gamma-aminobutyric acid (GABA) and acetylcholine (ACh) from the strips of guinea-pig ileum was investigated in the presence of neurotensin. Neurotensin evoked the release of [3H]-GABA from the strips preloaded with [3H]-GABA, and the evoked release was Ca2+-dependent and tetrodotoxin-sensitive. Hexamethonium, scopolamine, [D-Pro2,D-Trp7,9] substance P and pretreatment with substance P did not alter the neurotensin-evoked release of [3H]-GABA. Pretreatment with neurotensin inhibited the release of [3H]-GABA evoked by neurotensin but not by high K+, thereby indicating that neurotensin induced a specific desensitization of its own receptor. These observations indicate that neurotensin may stimulate the GABAergic neurone through its own receptor. Neurotensin evoked the release of [3H]-ACh from strips preloaded with [3H]-choline and this release was Ca2+-dependent and tetrodotoxin-sensitive. The evoked release of [3H]-ACh was not affected by hexamethonium, scopolamine and [D-Pro2,D-Trp7,9] substance P. Bicuculline partly inhibited the neurotensin-evoked release of [3H]-ACh; thus neurotensin seems to induce a release of ACh partly through the release of endogenous GABA. All this evidence indicates that neurotensin induces release of GABA as well as ACh from the myenteric neurones of the guinea-pig ileum.
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PMID:Release of gamma-aminobutyric acid and acetylcholine by neurotensin in guinea-pig ileum. 356 60


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