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Query: UNIPROT:P20366 (
substance P
)
21,176
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Interactions between products of the mouse W locus, which encodes the c-kit
tyrosine kinase receptor
, and the Sl locus, which encodes a ligand for c-kit receptor, which we have designated stem cell factor (SCF), have a critical role in the development of mast cells. Mice homozygous for mutations at either locus exhibit several phenotypic abnormalities including a virtual absence of mast cells. Moreover, the c-kit ligand SCF can induce the proliferation and maturation of normal mast cells in vitro or in vivo, and also can result in repair of the mast cell deficiency of Sl/Sld mice in vivo. We now report that administration of SCF intradermally in vivo results in dermal mast cell activation and a mast cell-dependent acute inflammatory response. This effect is c-kit receptor dependent, in that it is not observed when SCF is administered to mice containing dermal mast cells expressing functionally inactive c-kit receptors, is observed with both glycosylated and nonglycosylated forms of SCF, and occurs at doses of SCF at least 10-fold lower on a molar basis than the minimally effective dose of the classical dermal mast cell-activating agent
substance P
. These findings represent the first demonstration in vivo that a c-kit ligand can result in the functional activation of any cellular lineage expressing the c-kit receptor, and suggest that interactions between the c-kit receptor and its ligand may influence mast cell biology through complex effects on proliferation, maturation, and function.
...
PMID:The rat c-kit ligand, stem cell factor, induces c-kit receptor-dependent mouse mast cell activation in vivo. Evidence that signaling through the c-kit receptor can induce expression of cellular function. 137 May 30
The gene product of the steel locus of the mouse represents a growth factor for murine mast cells and a ligand for the c-kit proto-oncogene receptor, a member of the
tyrosine kinase receptor
class of oncogenes (for review, see O. N. Witte. 1990. Cell 63:5). We have studied the effect of the human recombinant c-kit receptor ligand stem cell factor (rhSCF) on the release of inflammatory mediators from human skin mast cells and peripheral blood basophils and compared its activity to that of rhIL-3, rhSCF (1 ng/ml to 1 microgram/ml) activated the release of histamine and PGD2 from mast cells isolated from human skin. Analysis by digital video microscopy indicated that purified human skin mast cells (84 +/- 5% pure) responded to rhSCF (0.1 to 1 microgram/ml) challenge with a rapid, sustained rise in intracellular Ca2+ levels that was accompanied by secretion of histamine. A brief preincubation (10 min) of mast cells with rhSCF (0.1 pg/ml to 1 ng/ml) significantly enhanced (100 +/- 35%) the release of histamine induced by anti-IgE (3 micrograms/ml), but was much less effective on IgE-mediated release of PGD2. In contrast, a short term incubation with rhSCF did not potentiate the secretion of histamine activated by
substance P
(5 microM). A 24-h incubation of mast cells with rhSCF did not affect the release of mediators induced by anti-IgE (3 micrograms/ml), probably due to receptor desensitization, rhSCF (1 ng/ml to 3 micrograms/ml) neither caused release of histamine or leukotriene C4 (LTC4) release from leukocytes of 14 donors, nor induced a rise in intracellular Ca2+ levels in purified (greater than 70%) basophils. Brief preincubation (10 min) of leukocytes with rhSCF (1 ng/ml to 3 micrograms/ml) caused an enhancement (69 +/- 11%) of anti-IgE-induced release of histamine that was significant at concentrations as low as 3 ng/ml (p less than 0.05), whereas it appeared less effective in potentiating IgE-mediated LTC4 release. In contrast, a prolonged incubation (24 h) with rhSCF (0.1 pg/ml to 100 ng/ml) did not enhance the release of histamine or LTC4 induced by anti-IgE (0.1 microgram/ml), whereas rhIL-3 (3 ng/ml) significantly potentiated the release of both mediators.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:The human recombinant c-kit receptor ligand, rhSCF, induces mediator release from human cutaneous mast cells and enhances IgE-dependent mediator release from both skin mast cells and peripheral blood basophils. 137 71
Glial cell line-derived neurotrophic factor (GDNF) is a neurotrophic factor with a therapeutic potential in neurodegenerative disorders. GDNF is expressed in the adult striatum, but its signalling
tyrosine kinase receptor
, c-ret, has not been detected in this structure by in situ hybridization. In the present work, we first examined c-ret and GDNF receptor alpha 1 (GFR-alpha 1) expression using an RNAse protection assay, and found that both receptors are expressed in the adult rat striatum. We then examined whether GDNF was able to regulate the phenotype and/or prevent the degeneration of striatal projection neurons in a well-characterized model of excitotoxic damage. A fibroblast cell line, engineered to overexpress GDNF, was grafted in adult rats striatum 24 h before quinolinic acid (QUIN) injection. QUIN injection alone or in combination with the control cell line induced a loss of glutamic acid decarboxylase 67 (GAD)-,
preprotachykinin
A (PPTA)-, prodynorphin (DYN)- and preproenkephalin (PPE)-positive neurons. GDNF selectively prevented: (i) the loss of a subpopulation of striatonigral neurons expressing GAD and PPTA; (ii) the atrophy of PPTA-positive neurons; and (iii) the decrease in GAD, PPTA and DYN mRNA expression, after QUIN injection. Moreover, in unlesioned animals, GDNF increased the size of PPTA-positive neurons and up-regulated their mRNA levels. In contrast, GDNF showed no effect in intact or lesioned striatopallidal PPE-positive neurons. Thus, our findings show that GDNF selectively regulates the phenotype and protects striatonigral neurons from QUIN-induced excitotoxicity, suggesting that GDNF may be used for the treatment of striatonigral degenerative disorders, e.g. Huntington's disease and multiple system atrophy.
...
PMID:Intrastriatal grafting of a GDNF-producing cell line protects striatonigral neurons from quinolinic acid excitotoxicity in vivo. 998 28
Although known primarily for its role in neuronal development, brain-derived neurotrophic factor (BDNF) has also recently been implicated in processes mediated by the adult nervous system, such as spinal nociception. Peripheral inflammation increases expression of BDNF preferentially in dorsal root ganglion cells that contain
substance P
and/or calcitonin gene-related peptide, known nociceptive transmitters for which synthesis is also increased during inflammatory states. Expression of the
tyrosine kinase receptor
that selectively binds BDNF, trkB, is increased in the spinal dorsal horn during inflammation as well. Additionally, intrathecal (i.t.) administration of the BDNF-scavenging protein trkB-IgG attenuates inflammation-induced behavioral responses. Collectively, this evidence implicates BDNF in spinal nociceptive processes. Here we show that, in normal mice, i.t. BDNF produces an acute, dose-dependent thermal hyperalgesic response. Selective inhibition of BDNF expression by i.t. antisense oligodeoxynucleotide treatment produces antinociception in normal mice and attenuates carrageenan-induced hyperalgesia. Further, we demonstrate that i.t. antisense treatment directed against the full-length trkB receptor (trkB.FL) attenuates carrageenan-induced hyperalgesia. Consistent with a trkB.FL-mediated mechanism, the i.t. administration of another trkB ligand, neurotrophin-4/5, also produces hyperalgesia while the trkC agonist neurotrophin-3, which weakly cross-reacts with trkB, has little effect. Finally, with the accumulating evidence linking BDNF to synaptic plasticity, we investigated whether BDNF-induced hyperalgesia in normal mice involves the N-methyl-D-aspartate (NMDA) receptor. Interestingly, i.t. co-administration of the NMDA receptor antagonist D(-)-2-amino-5-phosphonovaleric acid (D-APV) with BDNF dose-dependently inhibits BDNF-induced hyperalgesia, suggesting that BDNF induces acute hyperalgesic responses and affects central sensitization in a process dependent on NMDA receptor activation.
...
PMID:Spinal brain-derived neurotrophic factor (BDNF) produces hyperalgesia in normal mice while antisense directed against either BDNF or trkB, prevent inflammation-induced hyperalgesia. 1243 70
Expression of the nociceptive peptide,
substance P
(SP) is regulated by the neurotrophin, nerve growth factor (NGF), and exogenous exposure to high levels of NGF increases its cellular content and release. NGF utilizes two receptors, the NGF-specific
tyrosine kinase receptor
, TrkA, and also the non-specific neurotrophin receptor, p75(NTR) (p75). The purpose of this study is to determine the relative involvement of these receptors in nociception. To investigate the role of TrkA in SP signaling, sensory neurons from adult rats were grown in vitro and exposed to a TrkA-blocking antibody. Pretreatment with the antibody inhibited NGF-induced SP elevation. Furthermore, when neurons were exposed to K252a, a relatively specific TrkA kinase inhibitor, the NGF effect on SP was also inhibited. K252a did not prevent SP up-regulation in cells exposed to forskolin or glial cell line-derived neurotrophic factor (GDNF), two agents which increase SP expression independently of TrkA. When p75 was blocked by antiserum, SP up-regulation by NGF was also inhibited. The antiserum neither impacted neuronal survival or basal levels of SP expression, nor did it inhibit SP up-regulation induced by forskolin. Two other neurotrophins, which are also ligands for p75, brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) did not block NGF-induced SP up-regulation, raising the possibility that activated p75 is able to cooperate in SP regulation regardless of which neurotrophin ligand occupies it. Our data suggest that NGF up-regulation of SP expression requires the involvement of both TrkA and p75, although the specific contribution of each receptor to SP signaling remains to be determined.
...
PMID:Nerve growth factor regulates substance P in adult sensory neurons through both TrkA and p75 receptors. 1630 Jul 61
Enlarged adenotonsillar tissue (AT) is a major determinant of obstructive sleep apnea (OSA) severity in children; however, mechanisms of AT proliferation are poorly understood. We hypothesized that early exposure to respiratory syncytial virus (RSV) may modify AT proliferation through up-regulation of nerve growth factor (NGF)-
neurokinin 1
(
NK1
) receptor dependent pathways. AT harvested from 34 children with OSA and 25 children with recurrent tonsillitis (RI) were examined for mRNA expression of multiple growth factors and their receptors. In addition,
NK1
receptor expression and location, and
substance P
tissue concentrations were compared in AT from OSA and RI children. NGF mRNA and its high-affinity
tyrosine kinase receptor
(trkA) expression were selectively increased in OSA (p<0.001).
NK1
receptor mRNA and protein expression were also enhanced in OSA (p<0.01), and
substance P
concentrations in OSA patients were higher than in RI (p<0.0001). AT from OSA children exhibit distinct differences in the expression of NGF and trkA receptors,
NK1
receptors, and
substance P
. The homology between these changes and those observed in the lower airways following RSV infection suggests that RSV may have induced neuro-immunomodulatory changes within AT, predisposing them to increased proliferation, and ultimately contribute to emergence of OSA.
...
PMID:Neurotrophins and tonsillar hypertrophy in children with obstructive sleep apnea. 1766 45
Protein kinase signal transduction pathways play critical roles in regulating nociception. Here we show that c-kit, a
tyrosine kinase receptor
, is expressed in lamina I and II layer of the dorsal horn. Moreover, the superficial c-kit(+) fibers originate from the dorsal root ganglion, and c-kit in lamina II inner layer comes from intrinsic expression of the spinal cord. Kit(W-v) mice, which contain a hypomorphic mutation, exhibited normal acute pain in most pain behavior tests. In the formalin test, the first phase was not affected, whereas the second phase pain response of Kit(W-v) mice was significantly reduced relative to wild-type littermates. Kit(W-v) mice also showed abnormal neuropathic pain, notably in the contralateral side of nerve injury. The expression and release of CGRP and
substance P
were not altered by the c-kit mutation. Together, these results implicate c-kit-mediated signal transduction in the development of persistent pain.
...
PMID:The c-kit signaling pathway is involved in the development of persistent pain. 1944 20
The ovulatory process is characterized by tissue wounding and, after oocyte expulsion, by healing being connected to the formation of a corpus luteum (CL). The ovulatory event thus compares with a sterile inflammation. The concept is forwarded that the ovulatory process depends on innate immunity (INIM) function. The ultimate trigger for INIM signaling are danger signals/alarmins from granulosa cells damaged by oxidative stress and reactive oxygen species (ROS), respectively. Alarmins like oxidized low density lipoprotein (oxLDL) are recognized by cytokeratin-positive (CK(+)) granulosa cells with the expression of toll-like receptor 4 (TLR4). The subsequent inside-out signaling from the antrum towards the thecal cell layer comprises inflammation and tissue disintegration, which might be dominated by the myeloid differentiation factor 88 (Myd88) gateway. Additive or co-regulatory function are expected from the complement cascade for vessel permeability and leukocyte immigration and the wingless (WnT)-signaling for cell adhesion of CK(+) granulosa cells. The outside-in signaling relates to the repair phase, which is primarily controlled by the TIR-domain-containing adaptor protein producing IFN type I (TRIF) gateway of TLR signaling. The KIT/CD117
tyrosine kinase receptor
and the
tachykinin
-
tachykinin
receptor system could be involved. The appealing concept of INIM function in the ovary is novel and inaugurates a novel research field.
...
PMID:Ovulation as danger signaling event of innate immunity. 2116 30
Our understanding of the role of somatosensory feedback in regulating motility during chicken embryogenesis and fetal development in general has been hampered by the lack of an approach to selectively alter specific sensory modalities. In adult mammals, pyridoxine overdose has been shown to cause a peripheral sensory neuropathy characterized by a loss of both muscle and cutaneous afferents, but predominated by a loss of proprioception. We have begun to explore the sensitivity of the nervous system in chicken embryos to the application of pyridoxine on embryonic days 7 and 8, after sensory neurons in the lumbosacral region become post-mitotic. Upon examination of the spinal cord, dorsal root ganglion and peripheral nerves, we find that pyridoxine causes a loss of neurotrophic
tyrosine kinase receptor
type 3-positive neurons, a decrease in the diameter of the muscle innervating nerve tibialis, and a reduction in the number of large diameter axons in this nerve. However, we found no change in the number of
Substance P
or calcitonin gene-related peptide-positive neurons, the number of motor neurons or the diameter or axonal composition of the femoral cutaneous nerve. Therefore, pyridoxine causes a peripheral sensory neuropathy in embryonic chickens largely consistent with its effects in adult mammals. However, the lesion may be more restricted to proprioception in the chicken embryo. Therefore, pyridoxine lesion induced during embryogenesis in the chicken embryo can be used to assess how the loss of sensation, largely proprioception, alters spontaneous embryonic motility and subsequent motor development.
...
PMID:Teratogenic effects of pyridoxine on the spinal cord and dorsal root ganglia of embryonic chickens. 2559 28
