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)

In this study we have examined structural and neurochemical aspects of retinal and optic nerve development in experimentally growth-retarded fetal guinea pigs following maternal unilateral artery ligation. Eye weight (n = 4) and total retinal area (n = 6) at 62 days gestation (term approximately 66 days) were both relatively spared when expressed as a percentage of body weight but in absolute terms were significantly reduced by 18% (P less than 0.001) and 13% (P less than 0.05) respectively when compared with age-matched controls. The numerical density of neurons in the ganglion cell layer was significantly higher at both 52 days (n = 4) and 62 days (n = 4) in growth-retarded fetuses compared with controls. However, there was no difference between the groups in the total number of neurons in this retinal layer at either age, since retinal areas are reduced in growth retardation. The area of neuronal somata in the ganglion and inner nuclear layers was significantly reduced in growth-retarded fetuses compared with controls. There was a concomitant reduction in the width of the cellular layers in the retina and also in the plexiform (synaptic) and photoreceptor layers. The growth of the outer segments of the photoreceptor layer was particularly affected in peripheral retina. The higher packing density of cells and the reduced growth of the plexiform layers suggests a reduction in the growth of the neuropile in growth-retarded fetuses compared with controls. The radial bundling of ganglion cell axons coursing across the retina to enter the optic nerve head was poorly defined in growth retardation. In addition myelination was delayed in the optic nerve with the numerical density of myelinated axons being significantly reduced (P less than 0.005) in growth-retarded fetuses compared with controls. There was a significant reduction (P less than 0.01) in the number of amacrine cells in the inner plexiform layer expressing Substance P-like immunoreactivity in growth-retarded fetuses compared with controls. Glutamate-like immunoreactivity was most intense in the five laminae of the inner plexiform layer and in the outer plexiform layer and less pronounced in photoreceptors, ganglion cells and their axons. There was no qualitative difference in glutamate immunoreactivity between control and growth-retarded fetuses in any of these structures. Thus we have shown that intrauterine growth retardation has specific effects on the development of the fetal guinea pig retina, reducing the growth of several types of neurons and their processes and affecting the expression of the neuropeptide substance-P in amacrine cells.
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PMID:The structural and neurochemical development of the fetal guinea pig retina and optic nerve in experimental growth retardation. 137 56

Glutamate and several neuropeptides are synthesized and released by subpopulations of primary afferent neurons. These sensory neurons play a role in regulating the inflammatory and immune responses in peripheral tissues. We have explored what changes occur in the location and concentration of receptor binding sites for sensory neurotransmitters in two human inflammatory diseases, ulcerative colitis and Crohn's disease, using quantitative receptor autoradiography. The sensory neurotransmitter receptors included bombesin, calcitonin gene-related peptide-alpha, cholecystokinin, galanin, glutamate, somatostatin, neurokinin A (substance K), substance P, and vasoactive intestinal polypeptide. Of the nine receptor binding sites examined only binding sites for substance P and vasoactive intestinal peptide were significantly altered in the inflamed tissue. These data suggest that substance P is involved in regulating the inflammatory and immune responses in human inflammatory diseases and indicate a specificity of efferent action for each sensory neurotransmitter in peripheral tissues.
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PMID:Alterations in receptors for sensory neuropeptides in human inflammatory bowel disease. 165 49

Immunocytochemical studies of the vestibular nuclei (VN) were done in the squirrel monkey and cat using polyclonal antisera. Brain stem sections were processed using the Avidin-Biotin peroxidase complex with diaminobenzidine as the chromagen. Choline acetyltransferase immunoreactivity (ChAT-IR) was most prevalent in the caudal medial (MVN), inferior (IVN) and peripheral superior (SVN) VN. Nearly all cells of groups x and z were ChAT-positive. None of the giant cells of the lateral vestibular nucleus (LVN) was ChAT-IR. Glutamate immunoreactivity (GLU-IR) was abundant in all VN and in cells of the vestibular ganglion (VG). Gamma-aminobutyric acid immunoreactivity (GABA-IR), was found in cells of rostral MVN, cell group y and in granules about giant cells in dorsal LVN. Substance P immunoreactive (SP-IR) was present in a small cells in MVN, IVN and the VG and in granules surrounding all large cells in LVN in both monkey and cat; SP-IR granules were most intense in ventral LVN in the monkey. Some cells in the dorsal parts of the fastigial nucleus (FN) were outlined by SP-IR granules in both species. Leucine-enkephalin immunoreactivity (ENK-IR) was identified only in granules surrounding cells of group x in the monkey. GLU was the only immunoreactive substance found in the giant cells of LVN. The disposition of ChAT-IR in the VN suggested participation in commissural systems, as well as projections to spinal cord and/or cerebellum. Small GABA-IR neurons in MVN probably represented both commissural and projection neurons; GABA-IR granules about cells in dorsal LVN and some cells in MVN and SVN appeared to represent Purkinje cell (PC) terminals. SP-IR granules surrounding cells in ventral LVN appeared to represent terminals of small SP-positive VG cells. The source of SP-IR granules around cells in dorsal LVN and some cells in FN and SVN remains unknown, but these fibers may originate from portions of the reticular formation known to contain large numbers of SP-positive neurons.
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PMID:Immunocytochemical features of the vestibular nuclei in the monkey and cat. 170 74

Antisera raised against the fixation products of L-glutamate and L-aspartate were used, singly or in combination, to study the ultrastructural localization of the amino acids in the rat dorsal horn, with post-embedding immunogold techniques. Immunostaining for each of the amino acids was also combined with immunolocalization of GABA, an important inhibitory neurotransmitter in the spinal cord, or synaptophysin, a synaptic vesicle glycoprotein. In addition, we examined the localization of glutamate immunoreactivity in relation to that of calcitonin-gene related peptide and substance P, two neuropeptides present in high concentrations in the dorsal horn. Glutamate- and aspartate-immunoreactive neuronal cell bodies, dendrites, axons and terminals were apparent in the first three laminae of the dorsal horn. In somatic and dendritic profiles, the immunolabel was present over the general cytoplasm and mitochondria; in the terminals, it was found over small, agranular vesicles, mitochondria and, at times, synaptic densities. Quantitative estimation indicated that the colloidal gold density in the glutamate-immunoreactive terminals was five-fold more than in any other neuronal profile. Both glutamate- and aspartate-immunopositive terminals made asymmetric synaptic contacts onto unlabelled dendrites; glutamate-positive terminals often formed the core of type I and II glomeruli. After double labelling of the same sections, glutamate and aspartate immunoreactivities consistently occurred in different axonal and terminal profiles. In these preparations, it was clearly seen that glutamate-immunoreactive terminals were far more numerous than (more than 10-fold) those immunoreactive for aspartate. Double labelling for glutamate or aspartate and GABA also revealed distinct staining of different terminals. Simultaneous immunolocalization of each of the amino acids and synaptophysin showed the amino acid and glycoprotein immunoreactivities co-localized in small, agranular vesicles in immunoreactive terminals. Finally, triple labelling of the same sections for glutamate, calcitonin gene-related peptide and substance P revealed that glutamate was often co-localized with either of the two neuropeptides in the same axonal boutons; terminals that showed simultaneous labelling for glutamate, calcitonin gene-related peptide and substance P were also noted. In all cases, the glutamate immunoreactivity was restricted to small, clear vesicles whereas the neuropeptide immunoreactivities were present in larger, dense-cored vesicles. Our observations demonstrate that there is an abundant glutamate immunoreactivity in the superficial layers of the rat dorsal horn, localized in neuronal profiles distinct from those containing aspartate or GABA.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Ultrastructural visualization of glutamate and aspartate immunoreactivities in the rat dorsal horn, with special reference to the co-localization of glutamate, substance P and calcitonin-gene related peptide. 171 Nov 77

Glutamate and several neuropeptides are synthesized and released by subpopulations of primary afferent neurons. These sensory neurons play a role in regulating the inflammatory and immune responses in peripheral tissues. Using quantitative receptor autoradiography we have explored what changes occur in the location and concentration of receptor binding sites for sensory neurotransmitters in the colon in two human inflammatory diseases, ulcerative colitis and Crohn's disease. The sensory neurotransmitter receptors examined included bombesin, calcitonin gene related peptide-alpha, cholecystokinin, galanin, glutamate, somatostatin, neurokinin A (substance K), substance P, and vasoactive intestinal polypeptide. Of the nine receptor binding sites examined only substance P binding sites associated with arterioles, venules and lymph nodules were dramatically up-regulated in the inflamed tissue. These data suggest that substance P is involved in regulating the inflammatory and immune responses in human inflammatory diseases and indicate a specificity of efferent action for each sensory neurotransmitter in peripheral tissues.
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PMID:Receptors for sensory neuropeptides in human inflammatory diseases: implications for the effector role of sensory neurons. 255 Sep 12

Recent studies have implicated glutamate and substance P in synaptic transmission in the nuclei tractus solitarii and in central regulation of cardiorespiratory functions. Consequently, in chloralose-anaesthetized cats that were artificially ventilated, we examined the effects of the microiontophoretic application of both chemicals (and the substance P homologue, eledoisin-related peptide) on single neurones of the nuclei tractus solitarii implicated in the control of respiration and respiratory tract reflexes. These neurones were functionally identified as either respiratory neurones or presumed reflex interneurones, and showed functional properties comparable to those previously documented for each of these two types. The iontophoretic application of glutamate produced an excitation of rapid onset in 23 or 25 reflex interneurones tested, but the respiratory neurones showed a differential sensitivity: one type (n = 32) was "glutamate-sensitive" and showed rapid excitation with glutamate applications of less than 30 nA, the other type of respiratory neurone (n = 26) was termed "glutamate-insensitive" since it either showed excitation only with applications of 60 nA or more or showed no response even with currents up to 94 nA. Each neurone studied was clearly of one type or the other. Glutamate could increase the number of spikes per rhythmic burst and the burst duration of respiratory neurones, it facilitated evoked activity in the reflex interneurones and in those respiratory neurones having a superior laryngeal nerve or vagus nerve afferent input, and the magnitude of the excitatory responses to glutamate varied directly with the amount of ejecting current. Substance P and eledoisin-related peptide also had excitatory effects on respiratory neurones and reflex interneurones, but compared with glutamate-induced effects the excitation was slower in onset and more prolonged in after-discharge. Both rhythmic and evoked activity could be facilitated, and the magnitude of the effect varied directly with the magnitude of the ejecting current. In showing that both glutamate and substance P (and its analogue, eledoisin-related peptide) have excitatory effects on the activity of respiratory neurones and reflex interneurones, this study provides evidence suggesting that these neurones have receptors for these neural chemicals, supportive of a role for each chemical in the regulation of respiration and respiratory tract reflexes.
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PMID:Effects of glutamate, substance P and eledoisin-related peptide on solitary tract neurones involved in respiration and respiratory reflexes. 258 Nov 74

1. Cuneate cells in anaesthetized cats were strongly excited by L-glutamate, and somewhat less by D-glutamate; cells which receive afferents from hair receptors were particularly sensitive.2. Glutamate could be used to demonstrate post-synaptic inhibitory inputs from the dorsal column, the medial lemniscus and the frontal cortex.3. Many cuneate cells were also strongly excited by adenosinetriphosphate (ATP); this was probably due to the chelating action of ATP, as citric acid was also quite effective.4. gamma-Aminobutyric acid (GABA) readily blocked all forms of spontaneous and evoked activity, except antidromic invasion of cuneothalamic neurones; cells which receive proprioceptive afferents were particularly sensitive to GABA. Glycine had a comparable effect.5. Acetylcholine (ACh), catecholamines, histamine, 5-hydroxytryptamine (5-HT) and an extract containing substance P mostly had only weak depressant actions. Cholinergic and mono-aminergic mechanisms are probably not very significant in the cuneate.6. These results are consistent with the possibility that glutamate and GABA (or glycine), or some closely related compounds, are the main excitatory and inhibitory transmitters in the cuneate nucleus.7. If ATP is released from afferent nerve endings, it could also play a significant role in excitation.
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PMID:Micro-iontophoretic studies on neurones in the cuneate nucleus. 429 9

As little information is available on the chemistry of synaptic transmission in trigeminal brain stem nuclei, an iontophoretic study was done on the effects of glutamate and substance P on single neurons in trigeminal nuclei oralis and caudalis in cats anesthetized with chloralose and paralyzed. The neurons were additionally studied for their responses to natural noxious and innocuous cutaneous and intraoral stimuli as well as to bipolar stimulation of the ipsilateral and contralateral canine tooth pulps, the exposed infraorbital and superior laryngeal nerves and forepaw. Glutamate excited all units tested. Substance P also had an excitatory effect, but only on some units. The slow time course of this effect was similar to that reported in other CNS regions. Units excited by substance P were located only in nucleus caudalis, and all responded to noxious cutaneous stimuli and/or to stimulation of tooth pulp; units responding only to innocuous orofacial stimulation were not excited by substance P. Levorphanol and opioid peptides were also applied iontophoretically to some of the neurons and were found to have depressant effects on nociceptive units. The data support the possibility that substance P and endogenous opioids play a role in chemical transmission in nociceptive pathways in trigeminal nucleus caudalis. The regional specificity of substance P excitation adds support to the earlier evidence of a differential distribution of sensory inputs to nuclei oralis vs. caudalis, with facial nocicpetive afferents projecting only to caudalis. The functional specificity of substance P excitation also adds to the parallels found between the dorsal horn and nucleus caudalis. In addition, the similarity between the dorsal horn and nucleus caudalis with respect to the effects of substance P and the opioids suggest a parallel in the neurochemistry of synaptic transmission at the two levels.
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PMID:Effects of substance P on nociceptive and non-nociceptive trigeminal brain stem neurons. 615 75

Substance P (SP) (10(-8) M) can rapidly reduce the affinity and increase the density of 3H-5-HT binding sites in spinal cord membranes. CCK-8 and CCK-4 (10(-8) M) can rapidly and differentially change the characteristics of 3H-spiperone striatal binding sites linked to DA receptors of the D2 type. CCK-4 increase and CCK-8 reduce the number of striatal binding sites for 3H-spiperone, indicating for the first time separate CCK-4 binding sites. CCK-4 (10(-8) M) but not CCK-8 (10(-8) M) can rapidly reduce the affinity and increase the number of the 3H-spiperone binding sites linked to 5-HT receptors of the dorsal cerebral cortex of rats. CCK-8 (10(-8) M) only produces a trend for a small increase in the Bmax values of these receptors. These results again imply the existence of separate CCK-4 binding sites in this case in the cerebral cortex. Glutamate (10(-6) M), but not N-methyl-D-aspartate (10(-6) M) can rapidly change the characteristics of the 3H-N-propylnorapomorphine (3H-NPA) binding sites in striatal membranes of rats. Glutamate (10(-6) M) increases the density and especially reduces the affinity of the 3H-NPA binding sites, which label D2 and D3 types of DA receptors. Taken together the present findings give evidence that neuropeptide receptors and glutamate receptors can in vitro rapidly modulate the characteristics of different types of DA and 5-HT receptors by way of receptor--receptor interactions at the comodulate level or at the local circuit level. It is hypothesized that these receptor--receptor interactions are of importance for the encoding of short-term memory.
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PMID:Evidence for the existence of receptor--receptor interactions in the central nervous system. Studies on the regulation of monoamine receptors by neuropeptides. 619 8

The development of responsiveness of motoneurons to substance P (SP) and glutamate was investigated in the isolated spinal cord of the rat fetus at embryonic days 13.5-21.5. The motoneurons at embryonic day 14.5 first responded to SP with a slow depolarization. The responsiveness to SP increased by embryonic days 19.5-21.5. In a low Ca2+ solution, responsiveness was reduced after embryonic day 17.5. Glutamate caused a slow depolarization of motoneurons from embryonic day 13.5. The responsiveness increased until embryonic day 17.5 and decreased thereafter.
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PMID:The development of responsiveness to substance P and glutamate in the spinal motoneurons of rat fetuses. 620 69


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