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 chapter reviews some of recent evidence which suggests that one neurotrophin, nerve growth factor (NGF), is a peripherally produced mediator of some persistent pain states, notably those associated with inflammation. The evidence for this proposal is as follows. 1. The endogenous production of NGF regulates the sensitivity of nociceptive systems. Behavioural and electrophysiological studies have shown that sequestration of constitutively produced NGF leads to decrease nociceptor sensitivity. 2. In a wide variety of experimental inflammatory conditions NGF levels are rapidly increased in the inflamed tissue. 3. The high-affinity NGF receptor, trkA, is selectively expressed by nociceptive sensory neurons particularly those containing sensory neuropeptides such as substance P and CGRP. 4. The systematic or local application of exogenous NGF produces a rapid and prolonged behavioural hyperalgesia in both animals and humans. Exogenous NGF has also been found to activate and sensitize fine calibre sensory neurons. 5. In a number of animal models, much of the hyperalgesia associated with experimental inflammation is blocked by pharmacological "antagonism' of NGF. The mechanisms by which NGF up-regulation in inflamed tissues might lead to sensory abnormalities is also discussed. In particular, evidence is reviewed which suggests that increased NGF levels leads to both peripheral sensitization of nociceptors and central sensitization of dorsal horn neurons responding to noxious stimuli.
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PMID:NGF as a mediator of inflammatory pain. 873 Jul 82

The POU-domain transcription factor Oct-2 is expressed in both B lymphocytes and sensory neurones, where its expression is regulated by nerve growth factor (NGF). In order to define a possible role for Oct-2 in neurotrophin signalling, we examined the expression of an NGF-regulated channel (capsaicin-evoked ion fluxes), neuropeptides (substance P, calcitonin gene-related peptide), structural proteins (neurofilaments and peripherin) and receptors (trks) in dorsal root ganglion neurones derived from perinatal transgenic mice containing a defective Oct-2 structural gene. Northern blots show that central nervous tissue contains a larger than normal (> 10 kb) mRNA transcript corresponding in size to an Oct-2 transcript encoding a defective protein. PCR analysis shows the absence of normal Oct-2 transcripts in dorsal root ganglia. In null mutants, capsaicin sensitivity, and neuropeptide and cytoskeletal protein expression were unaffected by the loss of Oct-2 expression. The number of sensory neurones and the gross morphology of CNS tissues that normally express high levels of Oct-2 were also examined and found to be normal in the null mutant. Heterozygous animals show normal thresholds of sensitivity to noxious heat and normal inflammatory responses. Oct-2 does not therefore play an essential role in the NGF responsiveness of sensory neurones in these animals.
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PMID:Nerve growth factor-regulated properties of sensory neurones in Oct-2 null mutant mice. 875 Aug 82

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

Glial-cell-line-derived neurotrophic factor (GDNF) is a novel trophic factor with potent trophic effects on several neuron populations in the central and peripheral nervous system. In the present study, we have investigated and compared the potential of dopamine and metamphetamine with that of the two striatal neurotrophic factors, viz., GDNF and neurotrophin-(NT)-4/5, to regulate substance P and its preprotachykinin-A mRNA in organotypic striatal slices from postnatal (day 10) rats. Incubation for 2 weeks with 10 ng/ml GDNF significantly increased substance-P-like immunoreactivity determined by radioimmunoassay. Similarly, the corresponding preprotachykinin-A mRNA increased after 1 and 2 weeks of incubation, as analyzed by in situ hybridization. NT-4/5 exhibited similar effects. The dopamine-releasing agent metamphetamine stimulated substance-P-containing neurons in 1-week-old striatal slices, whereas dopamine stimulated substance-P-like immunoreactivity in 1- and 2-week old striatal cultures. The effects of dopamine and GDNF were not additive. We conclude that substance-P-containing medium-sized spiny neurons in the striatum are under both dopaminergic and growth factor control by GDNF and NT-4/5, which are both synthesized in the striatum. This adds a previously unknown role to those that have been established for GDNF in the nigrostriatal system.
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PMID:Glial-cell-line-derived neurotrophic factor enhances biosynthesis of substance P in striatal neurons in vitro. 885 94

Neuropeptides and neurotrophin receptors are regulated in primary sensory neurons in response to axonal injury, and axonal lesions are characteristic stigmata of aging primary sensory neurons. We have therefore examined the expression of neuropeptides and neurotrophin receptor mRNAs in 30-month-old (median survival age) Sprague-Dawley rats to see if similar adaptive mechanisms operate in senescence. The content of neuropeptides was examined with immunohistochemistry (IHC) and in situ hybridization (ISH), and the cellular mRNA expression of neurotrophin receptors was studied with ISH. All of the aged rats had symptoms of hind limb incapacity (posterior paralysis), but fore limbs did not seem affected. The size-distribution of neuronal profiles in cervical and lumbar dorsal root ganglia (DRGs) was similar in aged and young adult (2-3 months old) rats. In aged rats, the DRG neurons showed an increase in both immunolabelling and mRNA content of neuropeptide tyrosine (NPY), as well as an increased cellular expression of galanin mRNA. In the same animals, there were decreased cellular levels of calcitonin gene-related peptide (CGRP; IHC and ISH) and substance P (SP; IHC and ISH), while the difference in neuronal somatostatin (IHC and ISH) was small. The distribution of neuropeptide immunoreactivities in the dorsal horn of the corresponding spinal cord segments revealed a decreased labelling for CGRP-, SP-, and somatostatin-like immunoreactivities (LI) in the aged rats at both cervical and lumbar levels. NPY- and galanin-LI had a similar distribution in aged and young adult rats. NPY-immunoreactive fibers were also encountered in the dorsal column of aged but not young adult rats. ISH revealed that most of the primary sensory neurons express mRNA for the p75 low-affinity neurotrophin receptor (p75-LANR) and that there was no discernible difference between young adult and aged rats. The labelling intensity for mRNA encoding high-affinity tyrosine kinase receptors (TrkA, TrkB, and TrkC) was decreased in aged rat DRG neurons, while the percentage of neuronal profiles expressing mRNA for TrkA/B/C was similar in young adult and aged rats. The changed pattern of neuropeptide expression in primary sensory neurons of aged rats resembled that seen in young adult rats subjected to axonal injury of peripheral sensory nerves and may, thus, indicate aging-related lesions of sensory fibers. Since NPY is primarily present in large and galanin in small DRG neurons, the stronger effect on NPY as compared to galanin expression may indicate that aging preferentially affects neurons associated with mechanoreception (A alpha and A beta fibers) as compared to nociceptive units (A delta and C fibers). Furthermore, the observed changes in neuropeptide expression were most pronounced in lumbar DRGs, that harbors the sensory neurons supplying the affected hindlimbs of the rats.
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PMID:Neuropeptides and neurotrophin receptor mRNAs in primary sensory neurons of aged rats. 891 32

Injury to the sciatic nerve leads to the transganglionic degeneration of sensory axons and to the induction of neurotrophins and p75 nerve growth factor receptor synthesis by the denervated Schwann cells. Sciatic nerve axotomy caused a marked loss of substance P and of met-enkephalin in the lumbar cord. Substance P immunostaining and pre-proenkephalin mRNA expression were reduced in the dorsal horn layers I and II ipsilaterally to the lesion. Treating rats with low doses (0.25 mg/kg) of heparin or COS 8, a natural glycosaminoglycan mixture with low anticoagulant activity, the peptide loss was prevented and the content increased of about 50% above control values. The effects of COS 8 treatment were also evident on Schwann cells. COS 8 augmented the increase of nerve growth factor, brain-derived neurotrophic factor, and NT-3 mRNA expression in the distal stump of the axotomized sciatic nerve. Therefore, it can be concluded that glycosaminoglycans neuroprotective effects on lesioned sensory axons might have been mediated by the dramatic promotion of neurotrophin synthesis. Although the in vitro studies (Lesma et al.: J Neurosci Res, 1996) suggested also a likely direct effect as extracellular matrix components that is not mediated by trophic factors.
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PMID:Glycosaminoglycans in nerve injury: II. Effects on transganglionic degeneration and on the expression of neurotrophic factors. 895 69

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

Spinal cord projections from transected sciatic nerves treated with different neurotrophins were investigated in the adult rat following injections of choleragenoid into the proximal stump of the injured nerve. Transganglionically transported choleragenoid labelled primary afferent fibres in all spinal cord dorsal horn laminae except the outer part of lamina II (II(o)), which is almost devoid of labelling. Transection of the sciatic nerve, however, resulted in intense transganglionic choleragenoid labelling in lamina II(o) and in lamina I. In this study, the sciatic nerve was transected bilaterally and 4erve growth factor (6 or 24 microg), brain-derived neurotrophic factor (20 microg), neurotrophin-3 (27 microg) or cytochrome C (8 microg; control substance) was applied unilaterally during postoperative survival times of eight, 16 and 32 days. The animals received bilateral injections of choleragenoid into the injured nerve two days before they were killed. The effect of the axotomy and neurotrophin treatment was evaluated by analysing the extent of choleragenoid and substance P immunoreactivity in the somatotopically appropriate spinal cord dorsal horn regions. At eight days' postoperative survival, laminae I and II(o) on the transected, non-treated side showed much more intense choleragenoid-like immunoreactivity compared to the contralateral transected, nerve growth factor-treated (6 and 24 microg) side. A similar situation was also found in cases treated with the higher dose (24 microg) at 16 days but to a lesser degree when the lower (6 microg) dose was used. After 32 days' survival, there was no detectable side difference in the choleragenoid labelling pattern. At 16 days' survival, the mean area of choleragenoid-positive ganglion cell body profiles in the L5 dorsal root ganglion of the transected, non-treated side was significantly smaller than the mean area of the transected, nerve growth factor-treated (24 microg) neurons. An axotomy-induced depletion of substance P-like immunoreactivity was seen from eight days' survival and onwards, whereas on the nerve growth factor-treated side a clearcut substance P depletion was not observed until 32 days. Brain-derived neurotrophic factor, neurotrophin-3 and cytochrome C had no detectable effects on the distribution of choleragenoid labelling or substance P-like immunoreactivity in the dorsal horn following sciatic nerve transection. In conclusion, peripheral nerve injury-induced expansion of primary afferent choleragenoid labelling in the spinal cord dorsal horn is counteracted by treating the axotomized nerve with nerve growth factor.
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PMID:Effects of nerve growth factor, brain-derived neurotrophic factor and neurotrophin-3 on the laminar distribution of transganglionically fransported choleragenoid in the spinal cord dorsal horn following transection of the sciatic nerve in the adult rat. 915 64

In the adult rat, nerve growth factor (NGF) upregulates the nociceptive peptide substance P (SP) and calcitonin gene-related peptide (CGRP) in neuronal cell bodies of C fibres but the effects of NGF on release of these neuropeptides from the central afferent terminals have not been reported. Thus, this study compared rats treated with six doses of NGF over 2 weeks with controls and measured the release of the neuropeptides, SP and CGRP from the dorsum of the lumbar spinal cord in vitro. NGF (1.0 mg/kg s.c.) greatly increased basal and stimulus-evoked SP and CGRP release; at 0.1 mg/kg, NGF did not affect SP release but significantly increased CGRP basal outflow and evoked release. In a different set of experiments, topical application of NGF (100 ng/ml) to cords from naive rats did not increase stimulus-evoked release of SP or CGRP. These findings show marked stimulation by NGF treatment in vivo of release of sensory neuropeptides during stimulation of dorsal roots, albeit at relatively large doses of the neurotrophin.
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PMID:Nerve growth factor treatment increases stimulus-evoked release of sensory neuropeptides in the rat spinal cord. 918 64

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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