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 impact of the nerve growth factor (NGF) family of neurotrophins and their receptors was examined on the cutaneous innervation in the mystacial pads of mice. Ten sets of unmyelinated and thinly myelinated sensory and autonomic innervation were evaluated that terminated in the epidermis, upper dermis, and upper part of the intervibrissal hair follicles. Mystacial pads were analyzed from newborn to 4-week-old mice that had homozygous functional deletions of the genes for NGF, brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), neurotrophin-4 (NT-4), tyrosine kinase (trk) A, trkB, trkC, or p75. Mystacial pads were also analyzed in adult transgenic mice that had overproduction of NGF, BDNF, or NT-3 driven by a keratin promoter gene. The innervation was revealed by using immunofluorescence and immunocytochemistry with antibodies for protein gene product (PGP) 9.5, calcitonin gene-related product (CGRP), substance P (SP), galanin (GAL), neuropeptide Y (NPY), tyrosine hydroxylase (TH), and a neurofilament protein. The cumulative results indicated that NGF/trkA signaling plays a major role in the outgrowth and proliferation of sensory axons, whereas NT-3/ trkA signaling plays a major role in the formation of sensory endings. TrkC is also essential for the development of three sets of trkA-dependent sensory innervation that coexpress CGRP, SP, and GAL. Another set of sensory innervation that only coexpressed CGRP and SP was solely dependent upon NGF and trkA. Surprisingly, most sets of trkA-dependent sensory innervation are suppressed by trkB perhaps interacting with p75. BDNF and NT-4 appear to mediate this suppressing effect in the upper dermis and NT-4 in the epidermis. In contrast to sensory innervation, sympathetic innervation to the necks of intervibrissal hair follicles depends upon NGF/trkA signaling interacting with p75 for both the axon outgrowth and ending formation. Although NT-3/trkA signaling is essential for the full complement of sympathetic neurons, NT-3 is detrimental to the formation of sympathetic terminations to the necks of hair follicles. TrkB signaling mediated by BDNF but not NT-4 also suppresses these sympathetic terminations. One sparse set of innervation, perhaps parasympathetic, terminating at the necks of hair follicles is dependent solely upon NT-3 and trkC. Taken together, our results indicate that the innervation of the epidermis, upper dermis, and the upper portion of hair follicles is regulated by a competitive balance between promoting and suppressing effects of the various neurotrophins.
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PMID:Differential dependency of unmyelinated and A delta epidermal and upper dermal innervation on neurotrophins, trk receptors, and p75LNGFR. 964 Mar 32

A series of studies from our laboratory have established that fetal rat and human neuropeptide Y (NPY) cortical neurons in aggregate cultures are differentially regulated. In a preliminary study we found that primary astrocytes produce substantial amounts of immunoreactive (IR) NPY. We addressed the question: Is astrocyte production of NPY-IR a regulated process? The effects of brain-derived neurotrophic factor (BDNF, 50 ng/ml), basic fibroblast growth factor (bFGF), substance P (1 microM), forskolin (10 microM), or phorbol 12-myristate-13-acetate (PMA, 20 nM) on NPY-IR production was tested on rat and human primary astrocyte cultures. Of these agents, PMA and bFGF markedly induced NPY-IR production by rat as well as human astrocytes, forskolin induced NPY-IR production by human but not rat astrocytes, and neither BDNF nor substance P induced NPY-IR production by rat or human astrocytes. The molecular size of PMA-induced NPY-IR was found to be consistent with that of proNPY. Moreover, PMA induced the accumulation of mRNA corresponding in size to the neuronal NPY-mRNA. Immunocytochemical analysis of human post-mortem neocortex revealed co-existence of NPY-IR with astrocyte markers. These results indicate that cultured astrocytes express NPY gene in a regulated manner and they support our proposition that in situ reactive astrocytes may express NPY gene under some physiological/pathological conditions.
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PMID:Evidence for regulated expression of neuropeptide Y gene by rat and human cultured astrocytes. 980 22

To determine whether growth factors of the neurotrophin family are able to regulate the phenotype of striatal projection neurons, cell lines overexpressing brain-derived neurotrophic factor, neurotrophin-3 or neurotrophin-4/5 were intrastriatally grafted. Striatal projection neurons were examined for the regulation of their soma areas and for the expression of glutamate decarboxylase 67, preprotachykinin A, preproenkephalin and prodynorphin messenger RNAs by in situ hybridization. Brain-derived neurotrophic factor, neurotrophin-3 and neurotrophin-4/5 differentially regulated the soma area of projection neurons at different distances from the graft, but did not modify their messenger RNA levels. Neurotrophin-3 induced an increase in the soma area of preproenkephalin- and preprotachykinin A-positive neurons, brain-derived neurotrophic factor increased the soma area of only preprotachykinin A-positive neurons, while neurotrophin-4/5 did not produce any effect. Because atrophy and neuronal loss are hallmarks of Huntington's disease, we next examined whether neurotrophins prevent degenerative changes in a quinolinate model of Huntington's disease. Seven days after intrastriatal quinolinate injection, we observed a halo of cell loss around the injection sites, reduced soma area of glutamate decarboxylase 67-, preproenkephalin- and preprotachykinin A-positive neurons bordering the lesion, and a decrease in the messenger RNA levels of glutamate decarboxylase 67 and these neuropeptides. Grafting of cell lines expressing brain-derived neurotrophic factor, neurotrophin-3 or neurotrophin-4/5 reduced the size of the lesion for preproenkephalin-, preprotachykinin- and glutamate decarboxylase 67-, but not for prodynorphin-positive neurons. Moreover, the three neurotrophins prevented the atrophy of all projection neurons, and the lesion-induced decrease in preproenkephalin and preprotachykinin A messenger RNA levels. We conclude that neurotrophins differentially regulate the phenotype of striatal projection neurons and prevent degenerative changes. The higher efficiency of neurotrophin-3 suggests a potential therapeutic application of this molecule in neurological disorders affecting striatal projection neurons, such as Huntington's disease.
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PMID:Brain-derived neurotrophic factor, neurotrophin-3 and neurotrophin-4/5 differentially regulate the phenotype and prevent degenerative changes in striatal projection neurons after excitotoxicity in vivo. 1039 33

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

In this study, we examined the expression of neurotrophins in mouse lymphocytes and the regulation of their expression by mitogens and neurotransmitters. We found that mixed splenocytes as well as T and B lymphocytes expressed mRNA for all the neurotrophins examined. Differential regulation of the neurotrophins was obtained upon stimulation of the cells. Thus, LPS increased the expression of NGF, BDNF and NT-3 in splenocytes and B cells, whereas Con-A increased the mRNA of NT-3 and NT-4 in T cells and NGF expression in splenocytes. The neurotransmitter substance P and the beta-adrenergic agonist, isoproterenol induced an increase in the expression of NGF. Our results suggest an important role for the different neurotrophins in the function of the immune system and point to a bi-directional interaction between neurotrophins and neurotransmitters in this system.
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PMID:Differential regulation of neurotrophin expression by mitogens and neurotransmitters in mouse lymphocytes. 1069 6

Reverse transcription-polymerase chain reaction using 32P-labeled dCTP with specific primers for putative neurotransmitters related and neuronal growth-related genes (GAP-43, NGF and BDNF) were used to search for evidence of such substances in the Merkel cell. Merkel cell samples were made from sinus hairs in the facial skin of rats. The relative amount of mRNA in a tissue sample concentrated in Merkel cells was compared semiquantitatively to that from nearby tissue without Merkel cells. mRNAs for VIP, tyrosine hydroxylase, substance P were found in higher concentration in Merkel cells than in control tissues. mRNA for genes encoding pro-enkephalin, GAP-43, CGRP, NGF and BDNF were detected in the Merkel cell samples at concentration statistically equivalent to those found in the control tissues. It was concluded that the relative concentration of mRNAs for VIP, tyrosine hydroxylase and substance P is consistent with the possibility that Merkel cell acts as a possible transduction element in mechanical excitation of sense organs in which Merkel cells are present.
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PMID:Expressions of putative neurotransmitters and neuronal growth related genes in Merkel cell-neurite complexes of the rats. 1079 95

In neurons, neuropeptides and other synaptic components are transported down the axon to the synapse in vesicles using molecular motors of the kinesin family. In the synapse, these neuropeptides are found in dense core vesicles (DCVs), and, following calcium-mediated exocytosis, they interact with receptors on the target cell. We have developed a rapid, large-scale technique for purifying peptide-containing DCVs from specific nuclei in the central nervous system. By using differential velocity gradient and equilibrium gradient centrifugation, neuropeptide-containing DCVs can be separated by size and density from optic nerve (ON) and its termini, the lateral geniculate nuclei and the superior colliculi. Isolated DCVs contain neuropeptides (substance P and brain-derived neurotrophic factor), synaptic vesicle (SV) membrane proteins (SV2, synaptotagmins, synaptophysin, Rab3 and synaptobrevin), SV-associated proteins (alpha-synuclein), secretory markers for DCVs previously isolated (secretogranin II), and beta-amyloid precursor protein. By using electron microscopic techniques, DCV were also visualized and shown to be immunoreactive for neuropeptides, neurotrophins, and SV membrane proteins. Because of the interesting group of physiological and potentially pathophysiological proteins associated with these vesicles; this isolation procedure, applicable to other CNS nuclei, should represent an important research tool.
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PMID:Isolation and characterization of substance P-containing dense core vesicles from rabbit optic nerve and termini. 1110 68

Intrastriatal injection of quinolinate has been proven to be a very useful animal model to study the pathogenesis and treatment of Huntington's disease. To determine whether growth factors of the neurotrophin family are able to prevent the degeneration of striatal projection neurons, cell lines expressing brain-derived neurotrophic factor (BDNF), neurotrophin-3 (NT-3), or neurotrophin-4/5 (NT-4/5) were grafted in the adult rat striatum before quinolinate injection. Three days after lesioning, ongoing cell death was assessed by in situ detection of DNA fragmentation. In animals grafted with the control cell line, quinolinate injection induced a gradual cell loss that was differentially prevented by intrastriatal grafting of BDNF-, NT-3-, or NT-415-secreting cells. Seven days after lesioning, we characterized striatal projection neurons that were protected by neurotrophins. Quinolinate injection, alone or in combination with the control cell line, induced a selective loss of striatal projection neurons. Grafting of a BDNF-secreting cell line pre-vented the loss of all types of striatal projection neurons analyzed. Glutamic acid decarboxylase 67-, preproenkephalin-, and preprotachykinin A- but not prodynorphin-expressing neurons were protected by grafting of NT-3- or NT-4/5-secreting cells but with less efficiency than the BDNF-secreting cells. Our findings show that neurotrophins are able to promote the survival of striatal projection neurons in vivo and suggest that BDNF might be beneficial for the treatment of striatonigral degenerative disorders, including Huntington's disease.
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PMID:Brain-derived neurotrophic factor, neurotrophin-3, and neurotrophin-4/5 prevent the death of striatal projection neurons in a rodent model of Huntington's disease. 1118 72

In this study we investigate the neurotoxic action of Cisplatin (6 micrograms/g body weight for 5 treatment cycles during 15 weeks with a total dose of 30 micrograms/g), an antitumor drug, and its effect on the level of nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) in peripheral tissues. We found that Cisplatin in adult rodents impairs peripheral sensory function and both sympathetic and sensory peripheral innervation as shown by the hot-plate response, catecholamine distribution and substance P immunoreactivity respectively. These changes are associated with decreased NGF in intestine, paws, and bladder while NGF increased in the spinal cord. Also BDNF decreased in bladder and paws and increased in spinal cord and intestine. To further investigate the role of NGF in the pathogenesis of Cisplatin-induced peripheral neuropathies a group of animals was injected with NGF (1 microgram/g every 4 days for 4 times) following Cisplatin treatment and evaluated for sensory function, sympathetic and sensory innervation and BDNF levels. Data demonstrated that exogenous NGF administration is able to restore biochemical, structural and functional changes induced by Cisplatin. These findings suggest that the reduction of NGF availability could be a cause of Cisplatin-induced peripheral neuropathies and that NGF exogenous administration could prevent or reduce Cisplatin neurotoxicity also in cancer patients, reducing the side effects of chemotherapy.
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PMID:Evidence that nerve growth factor promotes the recovery of peripheral neuropathy induced in mice by cisplatin: behavioral, structural and biochemical analysis. 1126 29

There has been little exploration of major biologic regulators of cerebral development in autism. In archived neonatal blood of children with autistic spectrum disorders (n = 69), mental retardation without autism (n = 60), or cerebral palsy (CP, n = 63) and of control children (n = 54), we used recycling immunoaffinity chromatography to measure the neuropeptides substance P (SP), vasoactive intestinal peptide (VIP), pituitary adenylate cyclase-activating polypeptide (PACAP), calcitonin gene-related peptide (CGRP), and the neurotrophins nerve growth factor (NGF), brain-derived neurotrophic factor (BDNF), neurotrophin 3 (NT3), and neurotrophin 4/5 (NT4/5). Neonatal concentrations of VIP, CGRP, BDNF, and NT4/5 were higher (ANOVA, all p values < 0.0001 by Scheffe test for pairwise differences) in children in the autistic spectrum and in those with mental retardation without autism than in control children. In 99% of children with autism and 97% with mental retardation, levels of at least one of these substances exceeded those of all control children. Concentrations were similar in subgroups of the autistic spectrum (core syndrome with or without mental retardation, other autistic spectrum disorders with or without mental retardation) and in the presence or absence of a history of regression. Among children with mental retardation, concentrations did not differ by severity or known cause (n = 11, including 4 with Down syndrome). Concentrations of measured substances were similar in children with CP as compared with control subjects. SP, PACAP, NGF, and NT3 were not different by diagnostic group. No measured analyte distinguished children with autism from children with mental retardation alone. In autism and in a heterogeneous group of disorders of cognitive function, overexpression of certain neuropeptides and neurotrophins was observed in peripheral blood drawn in the first days of life.
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PMID:Neuropeptides and neurotrophins in neonatal blood of children with autism or mental retardation. 1135 50


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