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 spinal pia mater receives a rich innervation of small sensory axons via the ventral roots. Other sensory axons enter the ventral roots but end blindly or turn abruptly in hairpin loop-like formations and continue in a distal direction. In the present study, the content of substance P (SP)-, calcitonin gene-related peptide (CGRP)-, growth-associated protein (GAP-43)-, and low-affinity neurotrophin receptor protein (p75NGFr)-like immunoreactivity (-LI) associated with these different types of sensory axons was assessed with light and electron microscopic immunohistochemical techniques. In addition, the binding of antibodies against synthetic peptides representing unique sequences of residues in the products of the trk and trkB protooncogenes was analyzed. These genes encode membrane spanning proteins, which have been shown to constitute specific high affinity binding sites for several members of the nerve growth factor family of neurotrophic factors. The results of the present study imply that the ventral root afferents comprise several different types of sensory axons, which all contain SP-, CGRP-, GAP-43-, and p75NGFr-like immunoreactivities. In addition, at least some of the presumed sensory fiber bundles in ventral roots and the pia mater were immunoreactive for the trkB gene product. Moreover, leptomeningeal cells and nonneuronal cells of the ventral roots were shown to bind antibodies to both the trk and trkB gene products. The ventral root afferents seem to share their immunohistochemical pattern with pain-transducing axons at some other locations, such as the tooth pulp. The contents of SP- and CGRP-LI in sensory axons that reach the central nervous system (CNS) through the ventral root indicate that ventral root afferents may be involved in sensory mechanisms, such as the ventral root pain reaction, as well as in the control of the pial blood vessels. The demonstration of GAP-43 and neurotrophin receptor-immunoreactivities associated with unmyelinated fibers in ventral roots and the pia mater is discussed in relation to previous reports on postnatal plasticity in these axonal populations.
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PMID:Substance P-, calcitonin gene-related peptide, growth-associated protein-43, and neurotrophin receptor-like immunoreactivity associated with unmyelinated axons in feline ventral roots and pia mater. 751 Jul 31

Using reverse transcription followed by polymerase chain reaction, we examined the expression of mRNA for the tyrosine kinase receptors trk and trkB in rat sensory and sympathetic ganglia during postnatal development. While the levels of both trk and trkB mRNA in the dorsal root ganglia (DRG) decreased two-fold, they increased by seven and two times, respectively, in superior cervical ganglia. The developmentally regulated and tissue-specific expression of trk and trkB genes suggest that peripheral ganglia differ in their responsiveness to neurotrophins in neonatal and adult rats. We found that the temporal pattern of trk expression in DRG neurons correlates with the observed age-dependent ability of nerve growth factor to induce the biosynthesis of the neuropeptide substance P.
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PMID:Postnatal ontogeny of the neurotrophin receptors trk and trkB mRNA in rat sensory and sympathetic ganglia. 751 36

We have previously reported the isolation of an EGF-responsive precursor from the embryonic and adult mouse striatum. This precursor exhibits self renewal and the ability to produce a sphere of undifferentiated cells which can be induced to differentiate into neurons and glia. RT-PCR analysis of these spheres of undifferentiated cells revealed the expression of mRNA for the trkB neurotrophin receptor, both with and without the catalytic domain, and little or no expression of trkA or trkC. We examined the actions of BDNF on the fate of EGF-generated neural precursors. Ten days after a one-time exposure to BDNF, single EGF-generated spheres showed a twofold increase in neuron number and a marked enhancement in neurite outgrowth. Examination of neuronal nuclei with immunochemical probes for c-fos and bromodeoxyuridine revealed that the actions of BDNF were directly upon neuronal cells and did not involve division of neuronal precursors. The twofold increase in neuronal number due to BDNF, observed after 10 d in vitro, was significantly reduced after 21 d in vitro and was not apparent at 27 d in vitro. Quantitative analyses revealed that while repeated application of BDNF did not prevent the loss of neuron number over time, it did result in a significant increase in neurite numbers. Moreover, delayed addition of BDNF mimicked the increase in neuronal numbers seen when BDNF was present throughout. These BDNF actions did not appear to involve the enhancement of a novel neuronal phenotype, with all effects being due to increase in the numbers and neurite outgrowth of neurons that colocalize GABA and substance P. These findings suggest that BDNF markedly enhances the antigenic and morphologic differentiation of EGF-generated neuronal precursors. BDNF alone does not appear to act as a survival factor for neuronal precursors nor is it sufficient for preventing their death over time.
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PMID:BDNF enhances the differentiation but not the survival of CNS stem cell-derived neuronal precursors. 764 17

In order to elucidate the importance of the striatal GABAergic neurones in mediating functional effects of exogenously applied brain-derived neurotrophic factor (BDNF) in the basal ganglia, we performed daily injections of BDNF or vehicle into the dopamine-depleted striatum of unilaterally 6-hydroxydopamine-lesioned rats for 1 week. In situ hybridization revealed that BDNF exacerbated the lesion-induced up-regulation of preproenkephalin (PPE) mRNA, and completely reversed the lesion-induced decrease of preprotachykinin (PPT) mRNA. In contrast, striatal levels of trkB mRNA were not significantly affected by BDNF administration. Up-regulation of PPE and PPT mRNA was also observed in unlesioned BDNF-injected animals. We conclude that exogenously applied BDNF increases neuropeptide mRNA expression in striatal neurones independently of the presence of a dopaminergic innervation.
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PMID:Brain-derived neurotrophic factor enhances striatal neuropeptide expression in both the intact and the dopamine-depleted rat striatum. 802 54

Expression of mRNAs for the protein tyrosine kinases trk, trkB and trkC, encoding essential components of high-affinity neurotrophin receptors, was studied in the spinal cord and dorsal root ganglion during normal development and in the adult rat following peripheral and central axon injury. Northern blots revealed multiple trkB transcripts in the embryonic, early postnatal and adult spinal cord with different patterns of expression during development. The levels of 9.0 kb and 4.8 kb trkB transcripts, encoding a full-length trkB receptor, increased progressively during embryonic development with maximal levels around birth, followed by a decline at adulthood. In contrast, the level of 7.5/7.0 kb trkB transcripts, encoding a truncated trkB receptor, reached maximal levels shortly after birth and similar levels remained in the adult animal. In the spinal cord a 4.7kb trkC transcript was detected with maximal levels shortly after birth. In situ hybridization revealed a uniform labeling throughout the spinal cord for both trkB and trkC mRNAs with maximal intensities of labeling shortly after birth. The level of the 2.4 kb trkB transcript in the spinal cord increased 5-fold 8 days after a crush lesion of the sciatic nerve or the dorsal root, while no change was seen in the levels of the other trkB transcripts. No change in the 4.7 kb trkC mRNA was seen following these two injuries, although increased levels of several smaller size trkC transcripts were observed. For both trkB and trkC, similar size transcripts as seen in the spinal cord were also detected in adult rat dorsal root ganglia. Consistent with previous observations of decreased levels of cytoskeletal proteins after peripheral and central axotomy, the level of neurofilment light chain mRNA decreased markedly in the dorsal root ganglia following a crush lesion of the sciatic nerve or of the dorsal root. A small decrease was also seen in the level of preprotachykinin-A mRNA encoding the protein precursor of substance P. In the same animals, the levels of all five trkB transcripts increased 3-fold in the dorsal root ganglia in response to these two injuries. A small increase was also seen in the level of trkC mRNA. The level of brain-derived neurotrophic factor (BDNF) mRNA increased two-fold in the dorsal root ganglia following either of the two lesions, while no change was detected in trk mRNA following these two injuries.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Expression of mRNAs for neurotrophin receptors in the dorsal root ganglion and spinal cord during development and following peripheral or central axotomy. 851 Apr 96

We have generated double mutant mice deficient in pairs of two different Trk receptors and have analysed the effects on survival and differentiation of dorsal root ganglion (DRG), inner ear cochlear and vestibular sensory neurons. In most combinations of mutant trk alleles, the defects observed in double compared to single mutant mice were additive. However, double homozygous trkA-/-;trkB-/- DRG and trkB-/-;trkC-/- vestibular neurons showed the same degree of survival as single trkA-/- and trkB-/- mice, respectively, suggesting that those neurons required both Trk signaling pathways for survival. In situ hybridisation analysis of DRG neurons of double mutant mice revealed differential expression of excitatory neuropeptides. Whereas calcitonin-gene-related peptide expression correlated with the trkA phenotype, substance P expression was detected in all combinations of double mutant mice. In the inner ear, TrkB- and TrkC-dependent neurons were shown to at least partially depend on each other for survival, most likely indirectly due to abnormal development of their common targets. This effect was not observed in DRGs, where neurons depending on different Trk receptors generally innervate different targets.
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PMID:Differential effects of combined trk receptor mutations on dorsal root ganglion and inner ear sensory neurons. 857 7

The immunohistochemical occurrence of trkA, trkB and trkC receptors was examined in the human trigeminal ganglion and spinal nucleus of subjects at all ages and compared with that of substance P (SP) and calcitonin gene-related peptide (CGRP), trk-like immunoreactive (LI) material was detectable in discrete subpopulations of primary sensory neurones from 25 weeks of gestation to adult life. Each subpopulation overlapped partially with those immunoreactive to SP and CGRP, trkA- and trkC-positive filamentous and punctate elements occurred in the trigeminal subnucleus caudalis. While immunostaining for trkC was restricted to rare isolated elements, that for trkA outlined the superficial laminae of the nucleus and was more intense early in life than in adults.
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PMID:trk-like immunoreactivity in the human trigeminal ganglion and subnucleus caudalis. 880 42

Syntheses of substance P, somatostatin, and calcitonin gene-related peptide in sensory neurons have been suggested to be regulated by neurotrophic factors retrogradely transported from target tissues. In this study, we re-examined this idea by investigating the coexpression of neurotrophin receptor (trk family proto-oncogene) messenger RNAs, and preprotachykinin-A (a precursor peptide of substance P), alpha-calcitonin gene-related peptide and somatostatin messenger RNAs in lumbar dorsal root ganglion neurons by means of in situ hybridization histochemistry in rats. Approximately 35-40%, 5% and 15-20% of sensory neurons displayed signals for trkA, trkB, and trkC messenger RNAs, respectively. Approximately 28% of dorsal root ganglion neurons were positive for preprotachykinin-A messenger RNA, and were divided into two groups; those labeled strongly and those labeled weakly by in situ hybridization. All the strongly-labeled neurons (78% of preprotachykinin-A-positive cells) expressed trkA messenger RNA at the same time, while the weakly-labeled neurons did not. Thirty-seven per cent of dorsal root ganglion neurons expressed alpha-calcitonin gene-related peptide messenger RNA, and most of these neurons (84%) also expressed trkA messenger RNA. No or few preprotachykinin-A messenger RNA- and/or alpha-calcitonin gene-related peptide messenger RNA-expressing neurons were also positive for trkB or trkC messenger RNAs. Nine per cent of dorsal root ganglion neurons expressed somatostatin messenger RNA, and these neurons lacked all three trk messenger RNAs. Furthermore, most of these neurons (about 90%) showed positive, albeit weak, signals for preprotachykinin-A and alpha-calcitonin gene-related peptide messenger RNAs. The results suggest that expression of preprotachykinin-A and alpha-calcitonin gene-related peptide messenger RNAs is mediated by nerve growth factor via trkA receptor but not by brain-derived neurotrophic factor or neurotrophin-3, and that somatostatin gene transcription is not regulated by any member of the neurotrophin family in rat sensory neurons.
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PMID:Coexpression of preprotachykinin-A, alpha-calcitonin gene-related peptide, somatostatin, and neurotrophin receptor family messenger RNAs in rat dorsal root ganglion neurons. 884 23

While systemic capsaicin in adult rats is known to reduce substance P and somatostatin in primary sensory nerves, it is still unknown if it also affects the production of these peptides at the genetic level. Therefore, we examined the effects of systemically administered capsaicin on the expression of the beta-preprotachykinin, gamma-preprotachykinin, somatostatin, calcitonin gene-related peptide, vasoactive intestinal polypeptide, galanin, neuropeptide Y and neurotrophin receptor family (trkA, trkB, trkC) genes in dorsal root ganglion neurons by in situ hybridization in adult rats. Nerve growth factor is thought to be involved in the regulation of some of these genes. In the control animals, beta-preprotachykinin, gamma-preprotachykinin, calcitonin gene-related peptide, somatostatin, trkA, trkB and trkC messenger RNAs were found in about 30%, 30%, 40%, 10%, 40%, 5% and 20% of the lumbar dorsal root ganglion neurons, respectively. The number of neurons expressing beta/gamma-preprotachykinin and calcitonin gene-related peptide messenger RNAs decreased to about 50% and 70% of the control values, respectively, six days after subcutaneous administration of capsaicin (950 mg/kg). Simultaneously, the number of trkA messenger RNA-expressing neurons also decreased to about 70% of the control level, while the number of neurons expressing trkB and trkC messenger RNAs was unaffected. On the other hand, vasoactive intestinal polypeptide and galanin messenger RNAs, but not neuropeptide Y messenger RNA, began to be expressed in about 10% of dorsal root ganglion neurons after administration of capsaicin, although their messenger RNAs were not detected in the controls. However, the expression of somatostatin messenger RNA was unaffected by the systemic administration of capsaicin. The somatostatin messenger RNA was not co-expressed with vasoactive intestinal polypeptide and galanin messenger RNAs in the sensory neurons of rats given capsaicin. Electron microscopic analysis revealed a few degenerating unmyelinated afferents in sural nerves of the treated rats. The number of small-sized dorsal root ganglion cells labeled with Fluoro-Gold, a retrograde-tracing dye which was injected into the sural nerve of the treated rats, decreased to half of the control number. Our results suggest that systemic administration of capsaicin in adult rats depresses the expression of beta/gamma-preprotachykinin, calcitonin gene-related peptide and trkA messenger RNAs, and induces expression of vasoactive intestinal polypeptide and galanin messenger RNAs in sensory neurons, which may be due to the capsaicin-induced degeneration of a subpopulation of sensory afferents. We also demonstrated that the regulation of somatostatin gene expression in mature sensory neurons is not affected by systemic capsaicin.
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PMID:Systemic capsaicin in the adult rat differentially affects gene expression for neuropeptides and neurotrophin receptors in primary sensory neurons. 897 80

This study examined the effects of nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3 and neurotrophin-4/5 on substance P levels in dorsal root ganglia of the quail shortly after ganglia formation (stage 26, embryonic day 4.5), during the middle of development (stage 33, embryonic day 7.5) and during late development (stage 44, embryonic day 14). It has already been shown that nerve growth factor increases levels of substance P during the middle and late stages of development, and that messenger RNA for the neurotrophin receptors, trkA, trkB and trkC is present at all of these stages. Dorsal root ganglia were isolated, rinsed with defined medium to dilute endogenous neurotrophins and exposed to one of the neurotrophins for either 4 or 20 h. Substance P levels were quantitated using enzyme immunoassay. None of the neurotrophins had any effect on substance P levels in dorsal root ganglia obtained at stage 26 after either a 4 or 20 h exposure time. Nerve growth factor, brain-derived neurotrophic factor, neurotrophin-3 and neurotrophin-4/5 all significantly increased levels of substance P after either a 4 h or 20 h incubation in ganglia obtained at stages 33 and 44. The effects of nerve growth factor and neurotrophin-3 were specific: increases in substance P were completely blocked by simultaneous exposure to antibodies against either nerve growth factor or neurotrophin-3. The absence of any effect of neurotrophins on substance P expression during early development was unexpected, since dorsal root ganglia exhibit substantial levels of substance P and receptors for the neurotrophins are present and are apparently functional. It was also surprising that brain-derived neurotrophic factor, neurotrophin-3 and neurotrophin-4/5 induced increases in substance P levels during the middle and late stages of development, since substance P was thought to be exclusively localized to small TrkA neurons in dorsal root ganglia. However, immunocytochemical examination of dorsal root ganglia at stages 33 and 44 revealed substance P-like immunoreactivity in larger neurons as well as in small neurons. The results of this study have shown that different cellular responses to neurotrophins, such as effects on survival and/or peptide expression, may be acquired with differing temporal patterns not strictly related to expression of their receptors. Further, the regulation of neuropeptide synthesis in dorsal root ganglia is not due to any one neurotrophic factor. and the factors that regulate expression during early development are still unknown.
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PMID:Differential regulation of substance P by all members of the nerve growth factor family of neurotrophins in avian dorsal root ganglia throughout development. 921 78


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