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)

This study compared the effects of treatment of diabetic rats with either alpha-lipoic acid (100 mg/kg/day i.p. 5 days/week) or with recombinant human nerve growth factor (rhNGF; 0.2 mg/kg s.c. 3 days/week) on NGF-like immunoreactivity (NGFLI) and neuropeptide Y-like immunoreactivity (NPYLI) levels in the sciatic nerve and on the release of substance P-like immunoreactivity (SPLI) from the spinal cord in response to electrical stimulation of the dorsal roots in vitro. Diabetic rats showed depletion of NGFLI and NPYLI, together with reduced release of SPLI. Treatment with NGF increased the sciatic nerve NGFLI (to four times that seen in untreated diabetic rats) and normalised stimulus-evoked release of SPLI, but did not affect the sciatic nerve NPYLI. Treatment with alpha-lipoic acid caused a small non-significant increase in sciatic nerve NGFLI, but normalised both NPYLI levels and stimulus-evoked release of SPLI. These findings indicate that alpha-lipoic acid can boost neurotrophic support in diabetic rats, with effects beyond those related to NGF.
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PMID:alpha-Lipoic acid corrects neuropeptide deficits in diabetic rats via induction of trophic support. 914 47

Sympathetic neurons and other peripheral neurons exhibit a great deal of plasticity in their neuropeptide phenotype in adulthood. In this review, two phenotypes have been described in detail: that of normal sympathetic neurons and that of axotomized neurons. Two factors produced by nonneuronal cells, LIF and NGF, determine which of these phenotypes is expressed. Under normal conditions, the neurons receive NGF primarily, if not exclusively, from the target tissues they innervate. Prior to surgery, the nonneuronal cells within the ganglion and nerve tract express little, if any, LIF. This milieu favors the expression of NPY and suppresses the expression of VIP, galanin, and substance P (Fig. 6). After axotomy, however, this situation is reversed. The neuronal cell bodies are deprived of target-derived NGF and are exposed to LIF both within the ganglion and at the site of the injury (Fig 6). Both the removal of NGF and the exposure to LIF inhibit NPY expression, while promoting the expression of VIP and galanin. Expression of substance P after axotomy occurs primarily, if not entirely, because of the effects of LIF, with the removal of NGF playing no obvious role in the regulation of this peptide.
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PMID:Regulation of neuropeptide expression in sympathetic neurons. Paracrine and retrograde influences. 916 Sep 71

Acute superfusion of nerve growth factor (NGF; 1-100 ng/ml) through a naive rat spinal cord preparation did not alter basal or electrically evoked release of substance P-like immunoreactivity (SP-LI). In contrast, neurotrophin-3 (NT-3; 1-100 ng/ml), although not modifying SP-LI basal outflow, dose-dependently inhibited the electrically evoked, but not capsaicin (10 nM)-induced, release of the peptide. This NT-3 (10 ng/ml)-induced inhibition persisted even in the presence of 100 ng/ml NGF in the perfusion fluid and was still significant when the evoked release of SP-LI was enhanced by a prolonged in vivo treatment with NGF. Co-superfusion with naloxone (0.1 microM), but not CGP 36742 (100 microM), a GABAB antagonist, prevented NT-3 (10 ng/ml) inhibition of SP-LI release. Basal and electrically evoked release of SP-LI from the rat spinal cord in vitro was not modified 24 hr after single systemic injection of either NGF (1 mg/kg) or NT-3 (10 mg/kg). At these time intervals from administration, NGF had induced thermal and mechanical hyperalgesia in the rat hindpaw, and NT-3 had induced mechanical, but not thermal, hypoalgesia. NT-3 administered six times over a 2 week period (at 1 mg/kg) did not alter thermal threshold but significantly reduced electrically evoked release of SP-LI from the spinal cord. An identical treatment regimen with 1 mg/kg NGF induced a significant increase in evoked release of SP-LI. However, this was not associated with a significant hyperalgesia. Although finding that NGF-induced hyperalgesia does not clearly correlate with changes in the release of SP-LI in the spinal cord, this study shows that NT-3 is an inhibitor of SP-LI release and suggests that this mechanism may be responsible for NT-3-induced antinociception.
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PMID:Nerve growth factor- and neurotrophin-3-induced changes in nociceptive threshold and the release of substance P from the rat isolated spinal cord. 933 18

Many investigators have reported proliferation of terminal cutaneous nerves and upregulation of various neuropeptides (substance P, vasoactive intestinal polypeptide, calcitonin gene-related peptide) in psoriatic lesions. Nerve growth factor promotes growth of nerves and causes upregulation of neuropeptides like substance P and calcitonin gene-related peptide. In this study we investigated the expression of nerve growth factor in psoriatic lesions, non-lesional psoriatic skin, lichen planus and normal control skin. Immunoperoxidase staining was applied on cryosections prepared from snap-frozen biopsy specimens. The primary antibody used was a polyclonal anti-NGF-beta antibody. Nerve growth factor was detected only in the keratinocytes. In psoriatic tissue the number of keratinocytes per square millimeter of epidermis positive for nerve growth factor was 84.7 +/- 46.3 compared to 44.8 +/- 29.9, 18.9 +/- 11.8 and 7.5 +/- 16.9, respectively, in non-lesional psoriatic skin, normal skin and lichen planus. Increased expression of nerve growth factor substantiates larger numbers of terminal cutaneous nerves and upregulations of substance P and calcitonin gene-related peptide in psoriatic lesions. In addition, nerve growth factor is mitogenic to keratinocytes, activates T-lymphocytes and can induce migration of inflammatory cellular infiltrates, histological features characteristic of psoriasis.
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PMID:Psoriatic keratinocytes express high levels of nerve growth factor. 953 81

Untreated streptozotocin-diabetic (7 weeks duration) rats showed reductions (all p < 0.01; percentages in brackets) in motor and sensory nerve conduction velocity (MNCV; 14%, SNCV; 17%) and in sciatic nerve contents of nerve growth factor (NGF; 57%), substance P (SP; 53%) and neuropeptide Y (NPY; 39%). Treatment with a gamma-linolenic acid-alpha-lipoic acid conjugate (GLA-LA; 35 mg x day(-1) x rat(-1)) attenuated (p < 0.05) these reductions to MNCV (8%), SNCV (5%), NGF (19%), SP (23%), NPY (20%), such that the values in GLA-LA-treated diabetic rats did not differ significantly from those of control non-diabetic animals. Treatment with alpha-lipoic acid alone at 100 mg/kg i.p. was without effect on these variables except for NGF (33% reduction, p < 0.05) and treatment with the antioxidant, butylated hydroxytoluene (1.5% dietary supplement) did not affect any deficits. These data show that GLA-LA is effective in improving both electrophysiological and neurochemical correlates of experimental diabetic neuropathy.
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PMID:A lipoic acid-gamma linolenic acid conjugate is effective against multiple indices of experimental diabetic neuropathy. 968 27

Estrogen status has profound effects on cutaneous sensitivity in adult female rats. The presence of alpha-estrogen receptor mRNA and protein in NGF-dependent, adult female rat dorsal root ganglion (DRG) neurons raises the possibility that estrogen modulates cutaneous sensation by acting directly on primary afferent neurons, perhaps by altering their sensitivity to NGF. The present study examined the effect of long-term (90 days) daily injections of an estrogen preparation, Premarin (Wyeth-Ayerst, Radnor, PA), to ovariectomized adult rats on lumbar DRG high-affinity NGF receptor, trkA, mRNA levels, and on beta-preprotachykinin (beta-PPT) mRNA levels, which have been shown to be regulated by NGF. Two doses were used in the experiments, the higher dose being 10 times that of the lower dose. Such injections had an effect opposite that reported for short-term, acute estrogen treatment on DRG trkA mRNA levels. The current data show that long-term daily estrogen treatment decreases trkA mRNA levels by 36%. After 90 days of estrogen treatment, no dose effect was evident. Moreover, as would be expected if beta-PPT gene expression is regulated by NGF through the trkA receptor, long-term estrogen treatment decreased DRG neuronal beta-PPT mRNA levels by about 30%. As with trkA, there was no dose effect evident after 90 days of estrogen treatment. These data suggest the possibility that estrogen modulates DRG neuropeptide gene expression and, perhaps, cutaneous sensitivity by regulating NGF receptor gene expression.
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PMID:Long-term estrogen replacement coordinately decreases trkA and beta-PPT mRNA levels in dorsal root ganglion neurons. 1007 1

The effect of systemic NGF treatment on loss and shrinkage of dorsal root ganglion cells was studied in adult male rats after permanent axotomy. Nineteen 16 to 18-wk-old rats had their right 5th lumbar spinal nerve ligated and cut approximately 7 mm peripheral to the ganglion. Two days before the operation, treatment with subcutaneous injections of human recombinant NGF (1.0-0.5 mg/kg/day) was started in 9 test rats; 10 controls were given saline injections. After 1 mo the levels of substance P (SP) and calcitonin gene related peptide (CGRP) were significantly increased in intact sciatic nerve. The number and mean volume of perikarya were estimated using assumption-free stereological techniques including vertical sections, the Cavalieri principle, optical disectors, the planar rotator and systematic sampling techniques. Systemic NGF administration had no influence on survival of primary sensory neurons after axotomy. The number of perikarya was 14300 (S.D. = 1800) in axotomised ganglia in control rats versus 14700 (S.D. = 2100) in axotomised ganglia of NGF treated rats. The reduction of perikarya volume after axotomy was significantly less after NGF treatment (11600 microm3 in the control group versus 8000 microm3 in the NGF treated group). However, the apparent protection of NGF-treatment on perikaryal volume is explained by a hitherto unrecognised size effect on nonaxotomised dorsal root ganglion cells. The untreated rats had a mean volume of 24700 microm3 (S.D. = 2700 microm3) whereas rats treated with NGF had a volume of 20400 microm3 (S.D. = 1700 microm3) on the nonaxotomised side. In conclusion, systemic NGF treatment in adult rats has no effect on dorsal root ganglion cell loss in permanent axotomy whereas perikaryal size of intact nonaxotomised cells is reduced.
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PMID:The structural effect of systemic NGF treatment on permanently axotomised dorsal root ganglion cells in adult rats. 1038 75

Diabetes-induced embryo malformations and growth retardation are correlated with a variety of biochemical changes including oxidative stress. In this study, we show that the morphological alterations are correlated with progressive and selective changes of mRNA expression in specific neurotrophic factors. At embryological stage E-17, diabetes affected both embryo growth and NGF mRNA expression, which was reduced by as much as 90 and 56% in target tissues of sensory system such as tongue and intestine, respectively. The reduction in retina and heart was around 50%. Conversely, the mRNA expression of low-affinity neurotrophin receptor p75 was increased. At birth, BDNF mRNA expression was affected with a significant generalized reduction,while in vibrissae we observed a reduction of BDNF and p75 mRNAs and an increase of NGF. At postnatal day 14, pups from diabetic mothers showed reduced muscle levels of IGF-I, while we observed a partial impairment of substance P axonal transport at postnatal day 28. Treatment of diabetic mothers with silybin, a flavonoid with antioxidant properties, prevented most of the changes in neurotrophic factor expression and substance P axonal transport with no effects on hyperglycemia and embryo growth retardation. These results indicate that oxidative stress may influence neurotrophic factor synthesis in target territories during development. In addition, these data suggest that nervous system abnormalities observed in diabetic embryopathy may also derive by insufficient neurotrophic factor biosynthesis involving sequentially NGF in the embryo and BDNF and IGF-I in the early postnatal days. Insulin treatment of diabetic mothers normalized hyperglycemia and body growth, with consequent regular embryonic and postnatal development.
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PMID:Progressive and selective changes in neurotrophic factor expression and substance p axonal transport induced by perinatal diabetes: protective action of antioxidant treatment. 1044 Sep 1

A population of adult dorsal root ganglion (DRG) neurons bind NGF with high affinity and express the trkA gene. In these cells, NGF regulates gene expression and function. Recently, a number of laboratories reported the presence of estrogen receptors in DRG neurons and profound effects of estrogen on DRG gene expression. Our laboratory, for example, has reported a significant and coordinate decrease in DRG trkA and beta-preprotachykinin (beta-PPT) mRNA levels following 90 days of daily estrogen injections to ovariectomized (OVX) rats. These data suggest, as has been suggested for medial septal cholinergic neurons, that estrogen may collaborate with NGF in the regulation of DRG neuronal gene expression and function. The current study examined further this potential collaboration in the DRG by determining the effect of short-term estrogen replacement in OVX rats on DRG trkA mRNA levels following sciatic nerve transection and the resulting removal of a vital source of NGF for those cells. In OVX rats, about 40% of lumbar DRG neurons contained trkA mRNA. Short-term estrogen replacement had no effect on the percentage of neurons containing trkA mRNA, but increased the mean trkA mRNA level in uninjured DRGs of OVX rats by 23%. Axotomy in OVX rats reduced the mean trkA mRNA level by 55% but did not significantly decrease the percentage of neurons containing the mRNA. Estrogen replacement, 7 days after axotomy, partially and significantly restored the mean trkA mRNA level. It was 49% greater than that of the untreated axotomized DRGs. It did not, however, significantly increase the percentage of DRG neurons containing trkA in axotomized DRGs. These observations show that short-term estrogen has an opposite effect on DRG neuronal trkA mRNA levels as compared to that of long-term estrogen demonstrated in our previous study. Moreover, the current data show that estrogen regulates trkA mRNA levels in the absence of target-derived NGF. These data suggest that estrogen may collaborate with NGF in the maintenance of normal adult DRG gene expression and function. Furthermore, these data suggest that loss of estrogen, such as that associated with menopause, may contribute to a decline in DRG neuronal function and an exacerbation of ongoing neuropathic processes.
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PMID:Effects of short-term estrogen replacement on trkA mRNA levels in axotomized dorsal root ganglion neurons. 1050 14

The aim of this study was to investigate the effects of vascular endothelial growth factor (VEGF) on regeneration of the rat sciatic nerve in vivo. To that end we used 10-mm long cell-free nerve grafts to bridge a gap in the sciatic nerve. The grafts were pretreated with either VEGF (50, 100 or 250 ng/ml), nerve growth factor (NGF, 100 ng/ml) or laminin (100 ng/ml) before implantation. Outgrowth of axons, Schwann cells, blood vessels and macrophages were studied 10 days post-implantation by the use of immunocytochemistry and histochemistry. Grafts pretreated with VEGF stimulated the outgrowth of Schwann cells and blood vessels but not axons. In such grafts, the Schwann cells also exhibited a dramatic change in morphology and became filled with large lipid-containing vacuoles. These cells also showed an intense immunoreactivity for the VEGF receptor flk-1. Neither pretreatment with laminin nor NGF affected the outgrowth of Schwann cells. However, NGF treatment increased the number of axons in the graft but was not able to counteract injury-induced downregulation of substance P in the dorsal root ganglia. The results show that local application of VEGF promotes at least two events, invasion of Schwann cells and neovascularization, which are important during nerve regeneration. The findings suggest that the effects of the pretreatment by the growth factors is local and limited to the graft, whereas central events like neuropeptide synthesis is not affected.
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PMID:Vascular endothelial growth factor stimulates Schwann cell invasion and neovascularization of acellular nerve grafts. 1055 39

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