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)

There is increasing evidence that local substance P (SP) exacerbates peripheral inflammations, partly by stimulating production of inflammatory cytokines such as interleukin-1 (IL-1) and tumor necrosis factor alpha (TNF alpha). SP may play similar roles in certain central nervous system inflammations. Multiple sclerosis plaques, for example, form around veins which are innervated by unmyelinated SP-containing fibers, and astrocytes in multiple sclerosis plaques stain for SP. We tested whether SP could stimulate IL-1 and TNF alpha production by cultured astrocytes and whether calcium was the second messenger in this process. We found that both SP and the calcium ionophore A23187 raised intracellular calcium ([Ca2+]i) and stimulated IL-1 production in astrocytes. SP also nonsignificantly increased TNF alpha production by astrocytes. Treatment with dibromo BAPTA/AM, an intracellular calcium buffer, blocked SP-induced IL-1 production. These findings indicate that SP induces IL-1 production by astrocytes and uses calcium as a second messenger. Our results indicate local SP may play a role in multiple sclerosis and certain other central nervous system inflammations.
Brain Res 1992 Dec 18
PMID:Substance P stimulates IL-1 production by astrocytes via intracellular calcium. 128 56

An immunocytochemical technique that allows visualization of two antigens in the same neuron was used to verify the possibility that some neocortical pyramidal neurons contain both glutamate (Glu) and substance P (SP) immunoreactivity. The results show that a large fraction of SP-positive pyramidal neurons are also Glu-positive, and indicate that in a small population of cortical neurons a fast excitatory synaptic transmitter and a slow peptidic modulator coexist.
Brain Res 1992 Dec 18
PMID:Numerous SP-positive pyramidal neurons in cat neocortex are glutamate-positive. 128 58

The Wobbler mouse possesses an inherited motoneuron disease, which expresses itself primarily at cervical spinal levels and in cranial motor nuclei. Cell degeneration is sporatic and negligible in other motor regions of the brain (e.g., cerebellum, corpus striatum). However, enkephalin concentrations are consistently lower in the Wobbler cerebellum throughout the motoneuron disease, whereas substance P concentrations are significantly higher late in the disease compared with the normal phenotype littermates. The data imply that early changes in enkephalin (also shown for leucine enkephalin in the spinal cord and brainstem) may be important to the etiology of the Wobbler disorder. Like the late increase of substance P, this may reflect a yet-to-be described response to parent cell degeneration in the raphe nuclei. TRH remained unchanged in Wobbler cerebellum and corpus striatum, wherein the other peptides studied herein also maintained similar concentrations to the normal phenotype littermates.
Brain Res 1992 Dec 18
PMID:Decrease of enkephalins in cerebellum during Wobbler mouse motoneuron disease. 128 61

To determine if intrathecal (i.t.) oxymetazoline (OXY) induces histological evidence of spinal neurotoxicity, male, Sprague-Dawley rats (300-450 g; implanted with an i.t. catheter) were treated with i.t. saline or 100 nmol OXY twice daily for 3 days, or 200 or 300 nmol OXY once daily for 3 days. Spantide (D-Arg1, D-Try7,9, Leu11-substance P; 0.067 nmol = 0.1 microgram, 0.167 nmol = 0.25 microgram or 0.334 nmol = 0.5 microgram) or capsaicin (0.164 mumol = 50 micrograms), given as a single i.t. injection, were used as positive controls. Animals were killed 12 h after the last injection of saline or OXY, and 72 h after spantide or capsaicin. Spinal cord sections (L1 and adjacent segments) were examined by light microscopy for changes in gross morphology, substance P-like immunoreactivity (SP-IR) and calcitonin gene related peptide-like immunoreactivity (CGRP-IR). All doses of i.t. OXY produced antinociception (tail-flick ED50 = 53.7 nmol, paw pressure withdrawal ED50 = 93.3 nmol). Rectal temperature decreased by 1.5-2.4 degrees C up to 12 h after 100 nmol of i.t. OXY. There were no signs of inflammation or necrosis, and no detectable loss or damage to either spinal afferents or motor neurons as judged by SP-IR and CGRP-IR structures in spinal cords of OXY-treated animals (all doses) as compared to i.t. saline controls. Spantide (0.1 microgram) had no antinociceptive or neurotoxic effect; 0.25 microgram induced irreversible loss of the TF reflex and transient hind limb paralysis; 0.5 microgram induced irreversible loss of TF and PP responses, permanent hind limb paralysis, bladder and bowel dysfunction. The spinal cords from these animals showed signs of extensive necrosis, cavitation, and haemorrhage in the ventral horn accompanied by a loss of CGRP-IR motor neurons. Capsaicin-treated rats exhibited a permanent loss of the TF but not the PP response and a marked reduction of SP-IR spinal afferents in the dorsal horn. It is concluded that i.t. OXY produces antinociception in the rat with no detectable spinal neurotoxicity as assessed by parameters which are sensitive to the neurotoxins, spantide and capsaicin.
Brain Res 1992 Dec 18
PMID:Intrathecal oxymetazoline does not produce neurotoxicity in the spinal cord of the rat. 128 63

A mixture of peptidase inhibitors increased the magnitude of the saphenous nerve-evoked slow depolarization of a lumbar ventral root and prolonged the similarly evoked inhibition of monosynaptic reflex (MSR) in the isolated spinal cord of the newborn rat in the presence of naloxone. The saphenous nerve-evoked MSR inhibition was curtailed by a tachykinin antagonist, GR71251, and after the treatment with GR71251, the peptidase inhibitor mixture no more prolonged the MSR inhibition. The present results suggest that enzymatic degradation plays a role in the termination of action of tachykinins released from primary afferents in the newborn rat spinal cord. The results provide a further support for the notion that tachykinins serve as neurotransmitters in the spinal cord of the newborn rat.
Neurosci Res 1992 Dec
PMID:Enzymatic inactivation of tachykinin neurotransmitters in the isolated spinal cord of the newborn rat. 128 80

It has been reported that perinatal exposure to opiates affects mRNA synthesis, body growth and brain development in mammals, including humans. We have observed that morphine administration in drinking water during the perinatal period alters peptide development in the striatum of the rat. There is a marked increase in substance P and met-enkephalin content, the latter is maintained even at 30 days postnatally. The transient increase or earlier maturation of substance P content is correlated by a more precocious axon terminal organization as revealed by immunocytochemical staining. The increased metenkephalin content is correlated by a higher abundance of preproenkephalin A mRNA and this correlation is particularly evident at 15 days postnatally. At earlier times both northern blotting and in situ hybridization techniques fail to show any significant difference between control and morphine exposed rats, likely because the peptide content is not very different in the two groups or at least the gap is not as wide as at later times.
Int J Dev Neurosci 1992 Dec
PMID:Perinatal morphine exposure alters peptidergic development in the striatum. 128 3

Intracellular microelectrodes were used to record junction potentials from the circular muscle cells of the guinea pig ileum in vitro at 37 degrees C in a modified Krebs solution containing nifedipine (1-2 microM) and hyoscine (1 microM). Transmural nerve stimulation, using volleys of three pulses at 50 Hz, produced a complex response consisting of an inhibitory junction potential (IJP) followed by a prolonged depolarization. Following the addition of the nitric oxide synthase inhibitor NG-nitro-L-arginine (NOLA, 100 microM) the amplitude of the IJP (recorded 10 mm aboral to the stimulating electrodes) was increased by approx. 10% (n = 4). The further addition of apamin (250 nM) abolished the IJP revealing a non-cholinergic excitatory junction potential (EJP). In other experiments (n = 8), preparations were treated with apamin then subjected to substance P desensitization (500 nM, > 20 min). Transmural nerve stimulation now produced a triphasic response (recorded 1 mm aboral to the stimulating electrodes) consisting of: (a) an initial hyperpolarization (approx. 5 mV) lasting about 1 s; followed by (b) a depolarization reaching a peak (approx. 7 mV less negative than the RMP) approx. 2 s after nerve stimulation; and finally (c) a small (approx. 3 mV) hyperpolarization. The addition of NOLA reduced all three phases by 80-90% (n = 8). The subsequent addition of L-arginine (5 mM) partially reversed these effects (n = 3). Conditioning hyperpolarization up to 20 mV increased the amplitude of the NOLA-sensitive IJP and EJP. Further conditioning hyperpolarization reduced the amplitude of the IJP and enhanced the amplitude of the EJP. Large conditioning hyperpolarizations (> 60 mV) reduced the amplitude of both the IJP and EJP. An estimation of the membrane conductance changes occurring during the initial hyperpolarization and depolarization suggest that it was either unchanged or increased. During large conditioning hyperpolarizations in the absence of nerve stimulation, the membrane potential was unstable and began to show spontaneous oscillations (up to 30 mV, every 4-5 s) resembling slow waves. These experiments indicate that NO, or a related compound, appears to mediate the nerve induced apamin-resistant IJP and substance P- and hyoscine-resistant EJP in the circular muscle of the guinea pig ileum.
J Auton Nerv Syst 1992 Dec
PMID:Effects of a nitric oxide synthase inhibitor on non-cholinergic junction potentials in the circular muscle of the guinea pig ileum. 128 61

Substance P (SP) and vasoactive intestinal peptide (VIP) concentrations in nasal secretions and plasma from patients with nasal allergy to Japanese cedar pollen and healthy volunteers were measured from Jan to Dec, 1991 using EIA established by us. Simultaneously, the numbers of airborne pollens of Japanese cedar and cypress were counted, and the relation to the SP and VIP concentrations in nasal secretions from the patients with nasal allergy to Japanese cedar pollen was studied. The mean SP concentration in nasal secretions from the patients with nasal allergy to Japanese cedar pollen in the pollination season was 81.9 +/- 48.4 fmol/mg protein, which was significantly higher than that in the non-pollination season (30.4 +/- 14.7 fmol/mg protein) (p < 0.01). Likewise, the mean VIP concentration in nasal secretions from the patients with nasal allergy to Japanese cedar pollen in the pollination season was 14.2 +/- 10.4 fmol/ml protein, which was significantly higher than that in the non-pollination season (4.2 +/- 3.0 fmol/mg protein) (p < 0.01). The SP and VIP concentrations in nasal secretions from the healthy volunteers were not affected by the scattering of pollens. The SP and VIP concentrations in plasma from the patients and the healthy volunteers were not affected by the scattering of pollens.
Arerugi 1992 Dec
PMID:[Seasonal fluctuations of substance P and vasoactive intestinal peptide concentrations in nasal secretions of patients with nasal allergy to Japanese cedar pollen]. 128 39

The distribution of nerve fibres immunoreactive for vasoactive intestinal polypeptide (VIP), substance P (SP), methionine-enkephalin (ENK), calcitonin gene-related peptide (CGRP) and neuropeptide Y (NPY) within the circular muscle layer was examined histochemically in the human pylorus, adjacent antrum and duodenum. Longitudinal cryostat sections of the pyloric and surrounding regions were stained by an indirect immunofluorescence method, and the total length of each type of peptide-containing fibre per unit sectional area (micron/mm2) was measured using an image-analysing system. The narrow region of the circular muscle layer bordering the submucosa in the pylorus contained a rich supply of VIP, SP, ENK and CGRP immunoreactive fibres; VIP fibres were most prominent with less SP and ENK fibres and moderate amounts of CGRP. These peptide-containing nerve fibres were more dense than in the pyloric circular muscle, the longitudinal muscle layer and also the adjacent muscle layer. NPY-immunoreactive fibres were sparsely distributed throughout the pyloric region. These results suggest that the inner edge of the circular muscle, lying adjacent to the submucosa and densely innervated with peptide-containing fibres, may be a characteristic feature of the human pyloric sphincter.
Clin Auton Res 1992 Dec
PMID:Heterogenous distribution of peptide-containing nerve fibres within the circular muscle layer of the human pylorus. 128 61

The pre-inspiratory (Pre-I) neurons which fire in the pre- and usually also during the post-inspiratory phase are located in the ventrolateral structures of the rostral medulla. They are suggested as primary rhythm generating neurons for respiration. These have been studied in isolated brainstem-spinal cord preparations from newborn 0-5-day-old rats. We have found that application of substance P (SP) enhanced the respiratory rhythm as measured by C4 ventral root and pre-I neuronal activities. Furthermore, the effect of SP was dependent on basal respiratory rate. An increase of the Pre-I and C4 burst rate by SP was clearer when the basal respiratory rhythm was somewhat lower. Moreover, long lasting depression of respiratory rate after the application of the alpha 2-agonist clonidine was reversed by SP. On the other hand, an inhibitory effect appeared in preparations with a higher basal respiratory rate, while the Pre-I burst rate tended to increase during SP perfusion. During chemical synaptic transmission blockade by perfusion with low Ca2+, high Mg2+ solution, a pre-I burst retained or completely blocked was found to be enhanced or reactivated by SP perfusion. The results suggest a direct postsynaptic action of SP, which could strongly stimulate burst generating properties of Pre-I neurons.
Brain Res 1992 Dec 25
PMID:Effect of substance P on respiratory rhythm and pre-inspiratory neurons in the ventrolateral structure of rostral medulla oblongata: an in vitro study. 128 71

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