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)

Neuropeptide receptors were visualized in homografts of fetal cortex (E14) into adult rat cortex (immediate or 7 day delay) and spinal cord using in vitro autoradiographic techniques to explore the expression of peptide receptors in the same graft tissue in different central nervous system implantation sites. Receptors for bombesin (BN)-like peptides developed in the grafts by 3 weeks postimplantation regardless of location or age of implantation pocket in host. After 4 weeks, the density of BN receptors was confined to the graft. In grafts to spinal cord, however, high densities of BN-like receptors were not confined to the graft but were distributed throughout the spinal cord. In contrast, the density of vasoactive intestinal polypeptide (VIP) and substance P (SP) receptors was moderate and low to undetectable in the fetal grafts. The development of the peptide receptors studied was graft donor tissue specific since they were not altered by central nervous system implantation site.
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PMID:Bombesin-like, substance P and vasoactive intestinal polypeptide receptors in fetal cortical homografts to host cortex and spinal cord. 248 18

Serotoninergic and cholinergic neurons are known to appear earlier in the ontogeny (day E12) of the murine gut than those containing substance P or vasoactive intestinal peptide (day E14). It has also been demonstrated that proliferating neural precursors coexist with mature neurons in developing enteric ganglia. These observations have led to the hypotheses that peptidergic neurons develop later than those that utilize small molecule neurotransmitters and that the activity of early developing neurons may affect the phenotypic expression of coexisting neuroblasts. As a partial test of these hypotheses we studied the phenotypic expression of neurons recognized by antisera to neuropeptide Y (NPY) and calcitonin gene-related peptide (CGRP), and of those visualized by the histochemical demonstration of reduced nicotinamide adenine dinucleotide phosphate (NADPH) diaphorase activity. NADPH diaphorase activity, which is coexpressed with NPY immunoreactivity in all submucosal and many myenteric neurons, was first found on day E11 in clusters of cells in the dorsal mesogastrium. These cells also expressed neurofilament reactivity and thus were developing along a neuronal lineage. Enteric neurons that expressed NADPH diaphorase activity were visualized in the stomach one day later, on day E12. At this time, NADPH diaphorase-containing cells could no longer be demonstrated in the dorsal mesogastrium. NPY immunoreactivity first appeared in the wall of the bowel on day E12, when it was seen in cells in the presumptive stomach. By day E13, the entire length of the bowel contained NPY-immunoreactive neurons. Cells that displayed NADPH diaphorase activity were found at this time at both ends of the alimentary tract, but did not appear in the ileum until day E18. In contrast, CGRP immunoreactivity could not be detected anywhere in the gut until day E17, but by day E18 all regions of the bowel contained CGRP-immunoreactive neurons. Endogenous 5-HT was first detected at day E16 in mucosal epithelial cells in all segments of the gut except the stomach, where it appeared at day E18. The NPY/NADPH diaphorase set of neurons thus develop before the acquisition of a detectable level of endogenous 5-HT or enteric neural 5-HT receptors (which arise in the foregut at day E14). These observations demonstrate that enteric neurons that express small molecule neurotransmitters do not necessarily develop earlier than peptidergic neurons as a class; however, various types of enteric neurons do appear in a sequential order.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Time course of expression of neuropeptide Y, calcitonin gene-related peptide, and NADPH diaphorase activity in neurons of the developing murine bowel and the appearance of 5-hydroxytryptamine in mucosal enterochromaffin cells. 278 79

The differentiation of intracerebral and intraspinal transplants of fetal (E14-E15) rat spinal cord was studied to determine the extent to which myelin-free zones in these embryonic grafts exhibit cytological features and immunocytochemical characteristics of the substantia gelatinosa (SG) of the normal spinal cord. Immunocytochemical staining with antiserum to myelin basic protein (MBP) revealed myelin-free areas of varying proportions within fetal spinal cord grafts. These regions were identified in both newborn and adult recipients regardless of whether donor tissue was grafted to heterotopic (intracerebral) or homotopic (intraspinal) sites. As in the SG of the intact spinal cord, the myelin-free regions consisted mainly of small (7-15 microns) diameter neurons. At the ultrastructural level, these cells were surrounded by a neuropil composed of numerous small caliber, unmyelinated axons and intermediate-sized dendrites. Synaptic terminals in these areas were primarily characterized by the presence of clear, round vesicles, although granular vesicles were occasionally found within these terminals. Immunocytochemical staining demonstrated met- and leu-enkephalin-, neurotensin-, substance P-, and somatostatin-like immunoreactive elements within these myelin-free areas. Thus, regions within embryonic spinal cord grafts undergo some topographical differentiation which parallels that of the normal superficial dorsal horn. The presence of SG-like regions illustrates the potential capacity of fetal spinal cord transplants for replacing some intraspinal neuronal populations at the site of a spinal cord injury in neonatal and adult animals. These graft regions may serve as a source of intersegmental projection neurons or establish an extensive intrinsic circuitry similar to that seen in the normal SG. In addition, the definition of these areas provides a useful model to study the innervation patterns of host axons that typically project to the substantia gelatinosa of the normal spinal cord.
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PMID:Differentiation of substantia gelatinosa-like regions in intraspinal and intracerebral transplants of embryonic spinal cord tissue in the rat. 291 47

The putative neurotransmitter substance P was localized in the embryonic and neonatal mouse trigeminal nerve by indirect immunofluorescence. Central terminals in the nucleus caudalis gave a positive substance P-like immunofluorescence (SPLI) reaction of E13-E14. SPLI subsequently appeared in the peripheral mucous and cutaneous nerves at E16-17 at which time trigeminal nucleus cell bodies were also positive. These findings indicate the early development of primary afferent nociceptive pathways.
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PMID:The ontogeny of substance P fibers in the mouse trigeminal nerve. 617 80

In order to gain insight into the process of colonization of the bowel by the neural crest-derived precursors of enteric neurons, the development of the enteric nervous system was examined in lethal spotted mutant mice, a strain in which a segment of bowel is congenitally aganglionic. In addition, nerve fibers within the ganglionic and aganglionic zones of the gut of adult mutant mice were investigated with respect to their content of acetylcholinesterase, immunoreactive substance P, vasoactive intestinal polypeptide and serotonin, and their ability to take up [3H]serotonin. In both the fetal gut of developing mutant mice and in the mature bowel of adult animals abnormalities were limited to the terminal 2 mm of colon. The enteric nervous system in the proximal alimentary tract was indistinguishable from that of control animals for all of the parameters examined. In the terminal bowel, the normal plexiform pattern of the innervation and ganglion cell bodies were replaced by a coarse reticulum of nerve fibers that stained for acetylcholineserase and were continuous with extrinsic nerves running between the colon and the pelvic plexus. These coarse nerve bundles contained greatly reduced numbers of fibers that displayed substance P- and vasoactive intestinal polypeptide-like immunoreactivity, but a serotonergic innervation was totally missing from the aganglionic bowel. During development, acetylcholineserase and uptake of [3H]serotonin appeared in neural elements in the forgut of mutant mice on the 12th day of embryonic life (E12), about the same time these markers appeared in the forgut in normal mice. By day E14, neurons expressing one or the other marker were recognizable as far distally as about 2 mm from the anus. The appearance of neurons in segments of gut grown for 2 weeks as explants in culture was used as an assay for the presence of neuronal progenitor cells in the segments of fetal bowel at the time of explantation. Both acetylcholinesterase activity and uptake of [3H]serotonin developed in neurons in vitro in explants of proximal bowel between days E10 and E17. At all times, however, the terminal 2 mm of mutant but not normal fetal gut gave rise to aneuronal cultures. In some mutant mice rare, small, ectopically-situated pelvic ganglia were found just outside aganglionic segments of fetal colon. Uptake of [3H]serotonin, normally a marker for intrinsic enteric neurites, was found in these ganglia. The experiments support the hypothesis that the terminal 2 mm of the gut in lethal spotted mutant mice is intrinsically abnormal and thus cannot be colonized by the precursors of enteric neurons.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regionally defective colonization of the terminal bowel by the precursors of enteric neurons in lethal spotted mutant mice. 620 61

The mammalian striatum is divided into two compartments, the patch (or striosome) and the matrix, which differ on the basis of several cytochemical markers, connection patterns, and time of neurogenesis. In the rat, the patch compartment consists of clusters of neurons isolated by matrix neurons; included in the patch compartment is a rim of neurons subjacent to the corpus callosum and external capsule, called the subcallosal streak. To study the genesis and migration patterns of striatal neurons forming these compartments, we injected pregnant rats with 5-bromo-2'-deoxyuridine (BrdU, which is incorporated into DNA during S-phase mitosis) on embryonic (E) day 14, to label patch neurons, or on E19, to label matrix neurons. Embryos were sacrificed at intervals after injection, for detection of BrdU by immunocytochemistry. Cells labeled at E14 were distributed fairly uniformly in the differentiated portion of the caudate-putamen through E19. However, by the day of birth (P0), E14-labeled cells were clustered into patches and the subcallosal streak. Using double immunocytochemistry for BrdU and for the patch marker substance P, we demonstrated a caudal-rostral gradient in the birth dates of neurons in the patch compartment; E14-labeled cells occupied substance P-labeled patches at the level of the posterior limb of the anterior commissure, but patches further rostral were nearly devoid of E14-labeled cells. The distance between the lateral ventricle and the nearest E14-labeled cells was greater on E19 than on E16 or on P0, suggesting secondary movement of early-born neurons during the process of cluster formation. Neurons labeled at E19 formed the matrix surrounding clusters of unlabeled cells, except in the nucleus accumbens (ventral striatum), where E19-labeled cells formed clusters. The data suggest that the uniformly-distributed population of early-born neurons is disrupted by the invasion of later-born (matrix) neurons, forcing the early-born neurons into clusters which are displaced toward the ventricular surface to form the patch compartment. Early-born neurons adjacent to the external capsule are not displaced, forming the subcallosal streak.
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PMID:Genesis and migration patterns of neurons forming the patch and matrix compartments of the rat striatum. 753 3

1. The floor plate is a ventral mid-line structure that plays a pivotal role in the organization of the developing vertebrate central nervous system. Previous studies have demonstrated that the floor plate may provide signals that induce neuronal differentiation and guide axons; however, it is not known whether the floor plate can itself respond to signals that derive from surrounding tissue. 2. The peptide substance P is one of the first transmitters to be expressed in the developing spinal cord. To determine whether the floor plate may respond to substance P we have examined the expression of the principal substance P receptor (the tachykinin NK1 receptor) by floor plate cells of the rat embryonic spinal cord using immunocytochemistry, in situ hybridization and fura-2 calcium imaging. 3. Immunocytochemistry demonstrated selective expression of the NK1 receptor by cells at the ventral mid-line of the spinal cord. Double immunofluorescence labelling with the specific floor plate marker FP3 indicated that NK1 receptor expression is confined to cells in the lateral region of the floor plate. 4. In order to confirm the specificity of the NK1 receptor immunoreactivity we performed in situ hybridization histochemistry using antisense cRNA probes directed against the NK1 receptor. In situ hybridization demonstrated selective expression of NK1 receptor mRNA by floor plate cells. 5. The ontogeny of NK1 receptor protein and mRNA expression in the floor plate was defined. NK1 receptor expression occurred in a rostrocaudal progression that begins at embryonic day 10-11 (E10-E11) and is complete by E12-E14. The restriction of NK1 receptor expression to the lateral part of the floor plate was conserved throughout embryonic development. 6. NK1 receptor signalling was assessed by monitoring substance P-evoked changes in the intracellular concentration of calcium ions ([Ca2+]i) of acutely dissociated cells from the floor plate region. Application of substance P (5 nM) elevated [Ca2+]i in 10% of cells examined. 7. Selective neurokinin agonists were used to identify the receptor subtype involved in the substance P-evoked elevation of [Ca2+]i. Acetyl-[Arg6,Sar9,Met(O2)11]-substance P(6-11) (5 nM) and [Sar9,Met(O2)11]-substance P (5 nM), two highly selective NK1 receptor agonists, both elevated [Ca2+]i in floor plate cells that responded to substance P. [beta-Ala8]-neurokinin A(4-10) (50 nM) and senktide (50 nM), selective agonists respectively of NK2 and NK3 receptors, had no effect on [Ca2+]i.
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PMID:Functional expression of the tachykinin NK1 receptor by floor plate cells in the embryonic rat spinal cord and brainstem. 756 30

Microtubule-associated proteins contribute to the balance between stability and plasticity of the neuronal cytoskeleton by modulating assembly and disassembly of microtubules. The tau microtubule-associated proteins exist in several isoforms which are developmentally regulated and differentially distributed. Our objective was to characterize the distribution of tau isoforms in developing and mature dorsal root ganglia neurons and during axonal regeneration following sciatic nerve axotomy. Immunocytochemical analysis was carried out using antibodies that recognize all tau isoforms and a novel antibody that specifically recognizes the high molecular weight isoform. The expression of tau is highly regulated during development. At E14, all dorsal root ganglion neurons express only the low molecular weight tau isoforms. These isoforms are still present in all dorsal root ganglion neurons in neonates, whereas high molecular weight tau isoforms are expressed in a subset of dorsal root ganglion neurons. The switch from low to exclusively high molecular weight tau expression begins at E18 and is completed during the first postnatal week. In the adult, high molecular weight tau is restricted to small- and medium-sized dorsal root ganglion neurons; its distribution largely coincides with the population of substance P and calcitonin gene related peptide peptidergic neurons. This differential distribution was observed in the cell body, dorsal roots and sciatic nerve axons. In contrast to the protein, however, the distribution of high molecular weight tau messenger RNA is not restricted; all dorsal root ganglion neurons express similar tau messenger RNA levels. The discrepancy between the distribution of protein and messenger RNA suggests control at the post-transcriptional or translational levels. Sciatic nerve axotomy which is followed by axonal regeneration did not alter the differential distribution of high molecular weight tau immunostaining. We conclude that the distribution and expression of tau isoforms during axonal regeneration in adult does not recapitulate the developmental pattern.
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PMID:The expression and distribution of tau proteins and messenger RNA in rat dorsal root ganglion neurons during development and regeneration. 764 32

Pancreatic ganglia are formed by neural crest-derived precursors, are innervated by enteric neurons, and contain neuropeptides. In addition, the enzyme NADPH-diaphorase is located in a subset of enteric and pancreatic neurons. The expression of neural markers (GAP-43 and NC-1), neurotransmitter-related markers (including neuropeptide Y (NPY), vasoactive intestinal peptide (VIP), gastrin-releasing peptide (GRP), galanin (GAL), dopamine beta hydroxylase (DBH), substance P (SP), calcitonin gene-related peptide (CGRP)), and NADPH-diaphorase was studied in the fetal and neonatal rat gut and pancreas (E12-P28) in situ and in vitro. NC-1, GAP-43 and DBH-immunoreactive cells were found in the primordial stomach on day E12, and in the pancreas on day E13, along with NPY in endocrine cells. Pancreatic NPY-immunoreactive neurons were detected by day E18. CGRP was seen in the foregut at day E12 but not in the pancreas until day E14. Other neuropeptides (SP, GAL, GRP and VIP) all appeared in the foregut earlier than in the pancreas. NADPH-diaphorase activity was first found in situ in foregut neurons on day E13, and in the pancreas on day E14, but seen in explants a day earlier. These observations show that development of neurons occurs earlier in the gut than in the pancreas, and that NADPH-diaphorase activity appears earlier than the immunoreactivities of the neuropeptides.
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PMID:Appearance of neuropeptides and NADPH-diaphorase during development of the enteropancreatic innervation. 772 Feb 14

Substance P receptors (SPRs) are expressed by prenatal rat spinal cord neurons and glial cells early in their differentiation, and SPRs may mediate developmental influences in the developing spinal cord. In order to understand better early SPR expression, we quantified SPR mRNA in the rat spinal cord during prenatal development using a cDNA probe for the rat SPR in nuclease protection assays. SPR mRNA was present in the rat spinal cord at E14, the earliest stage examined, and the presence of specific binding sites for radiolabeled SP suggested that SPRs were expressed at the protein level as well. Comparisons of samples from rats at different prenatal ages showed that the relative abundance of SPR mRNA declined by about 75% from E14 through the remainder of prenatal development. Assays of the hydrolysis of phosphatidyl inositol performed on prenatal spinal cord cells in culture revealed that SP caused a small but significant stimulation. These results show that expression of SPRs is an early molecular event in the development of the rat spinal cord in vivo and that SPRs on young spinal cord cells can mediate functional responses at early developmental stages.
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PMID:Substance P receptor expression and cellular responses to substance P in prenatal rat spinal cord cells. 922 Mar 68


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