Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Carotid bodies are sensory organs for monitoring arterial oxygen and CO2. Previous studies have shown that chemoreceptor tissue contains substance P (SP) and exogenously administered SP augments chemosensory discharge. In the present study, we examined the physiological importance of SP in carotid body chemoreception by using a selective nonpeptide SP [neurokinin (NK) 1] receptor antagonist CP-96,345. In experiments performed on anesthetized cats, sensory discharge was recorded from the carotid body in situ. To control for alterations in blood flow, additional studies were conducted on the carotid body in vitro. In in vivo studies, close carotid body (intraarterial) administration of CP-96,345 attenuated the sensory response to hypoxia in a dose-dependent manner with 73% of the response abolished at doses of 0.3-0.6 mg/kg. Comparable doses of the (2R,3R)-enantiomer had no effect on hypoxia-induced excitation, indicating that the effect of CP-96,345 was not due to nonspecific action. In contrast, the carotid body response to high CO2 was not affected by CP-96,345, implying that only the hypoxic response is mediated by NK-1 receptor and confirming that the effect of the SP antagonist was not due to nonspecific actions. Marked attenuation of the sensory response to hypoxia was also obtained in the carotid body in vitro, suggesting that the effects of the NK-1 antagonist were not secondary to cardiovascular changes. These results demonstrate that CP-96,345 attenuates or abolishes the chemosensory response to hypoxia but not to CO2 and suggest that SP mediates the hypoxia-induced sensory excitation in the cat carotid body via NK-1 receptor activation.
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PMID:Selective inhibition of the carotid body sensory response to hypoxia by the substance P receptor antagonist CP-96,345. 823 54

Hypoxia has major effects on endothelium-dependent relaxation. To further understand the underlying mechanism(s), we investigated the O2 dependence of the endothelium-dependent relaxations elicited by ionophore A-23187 or agonists substance P (SP) or thrombin (TB) in porcine coronary arteries. A-23187 elicits an endothelium-dependent relaxation of KCl- or U-46619-induced contractures that can be described in terms of a rapid and slow phase. The duration of the relaxation was dose dependent. SP (10 nM) and TB (0.1 U/ml) also elicited endothelium-dependent relaxations that were rapid but transient. Hypoxic conditions (95% N2-5% CO2 instead of 95% O2-5% CO2; PO2 < 1%) abolished the A-23187 rapid phase and the SP and TB transient relaxation but not the A-23187 slow phase. Threshold PO2 for the rapid phase was approximately 35 mmHg. Pretreatment with cyanide (5 mM), to inhibit respiration, or 2-deoxy-D-glucose, to inhibit glycolysis, had little effect. Similarly, propranolol (10 microM) or indomethacin (10 microM) had no effect on the relaxation to A-23187, TB, or SP. In contrast, both NO synthesis inhibitors and ouabain blunted all endothelium-dependent relaxations studied. Our results suggest that the rapid relaxations to A-23187, SP, and TB are sensitive to O2 but not mitochondrial respiration. The slow sustained relaxation induced by A-23187, however, is characterized by a sensitivity to O2 that is distinct from that of the rapid phase, yet is dependent on an intact endothelium and is affected by NO synthesis inhibitors. Thus the endothelium-dependent relaxation to A-23187 is probably mediated by NO, but its sensitivity to O2 suggests that two distinct mechanisms may be involved.
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PMID:Dependence of endothelium-mediated relaxation on oxygen and metabolism in porcine coronary arteries. 834 45

The role of oxygen radicals in isocapnic hyperpnea-induced bronchoconstriction (HIB) of guinea pigs was investigated using scavengers of the radicals. In series 1, 50 young guinea pigs were randomly divided into seven groups: control 1, control 2, chlorisondamine, tetrodotoxin (TTX), acute dimethylthiourea (DMTU), tachykinin depletion, and 5% CO2 in air. Animals of the control 2 group received vehicle (saline) infusion while those of the control 1 group did not. Chlorisondamine was used to block ganglionic transmission, TTX to interrupt nerve conduction, DMTU to scavenge hydroxyl radicals, and chronic capsaicin pretreatment to deplete tachykinins. The animals in the last group were ventilated with dry 5% CO2 in air during hyperpnea. In series 2, 13 additional animals were used to test the effects of intratracheal administration of superoxide dismutase and catalase (SOD + CAT) on HIB. Each animal was anesthetized with pentobarbital sodium, cannulated with a tracheal cannula and venous catheter, paralyzed with gallamine triethiodide, and mechanically ventilated. During the baseline period, each animal was ventilated normally with humidified air. Then it was hyperventilated 15 min with a dry gas mixture of 95% O2-5% CO2, except animals in the last group of series 1. Subsequently, all animals returned to normal ventilation with humidified air for 45 min (recovery period). The maximal expiratory flow and dynamic compliance were obtained periodically during the recovery period. The isocapnic hyperpnea using 95% O2-5% CO2, but not 5% CO2 in air, caused bronchoconstriction that was significantly blocked by acute DMTU, acute SOD + CAT, and tachykinin depletion. In an additional group of six animals, acute DMTU did not significantly alter acetylcholine-induced airway constriction.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Oxygen radicals in bronchoconstriction of guinea pigs elicited by isocapnic hyperpnea. 845 78

An intact nociceptor system of primary afferent sensory nerves is important for the initiation of the inflammatory process and successful tissue repair. Dysfunction of this system with age could be a contributing factor for delayed wound healing in the elderly. This study was designed to examine the role of sensory nerves (using capsaicin-pretreated rats) and the effect of aging on the healing of a thermal wound induced on the interscapular region (using a CO2 laser). The healing endpoint was the time when full wound contraction had occurred. The ability of the sensory peptides, substance P (SP) and calcitonin gene-related peptide (CGRP), in modulating wound healing in aged rats was examined by taking into account the modulatory interaction effects between these peptides. A blister model in the rat hind footpad combined with a laser Doppler flowmeter was used initially to establish these vascular interaction effects. The results showed a significant delay in thermal wound healing in both the capsaicin-treated and aged rats. Using the blister model, we demonstrated the ability of SP and CGRP to induce a limited and a prolonged vasodilator response, respectively. When tested together, SP attenuated the vascular effect of CGRP, an effect that was reversed using the tachykinin antagonist spantide II. When injected at the wound site, SP and CGRP were equally potent in promoting wound healing in aged rats. The beneficial effect of taking the interaction effects into account was most evident in a group of rats that received the tachykinin antagonist as part of their initial treatment with CGRP and 6 h later, an injection of SP; the time to complete wound closure was 11.3 +/- 0.6 days compared to 21.0 +/- 0.9 days in aged controls. We contend that would healing in aged rats can be accelerated by exogenous administration of sensory peptides. Furthermore, modulatory interaction effects between sensory peptides should be taken into consideration when designing any treatment protocol that purports to accelerate wound healing.
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PMID:Sensory peptides as neuromodulators of wound healing in aged rats. 880 84

In isolated canine middle cerebral arteries contracted with prostaglandin F2 alpha, transmural electrical stimulation (TES), nicotine, and substance P produced relaxations. Transmural electrical stimulation- and nicotine-induced endothelium-independent responses are mediated by nitric oxide (NO) liberated from perivascular nerve, whereas substance P-induced relaxations are mediated by endothelium-derived NO. These responses were attenuated by replacement of 95% O2 and 5% CO2 gas (about 550 mm Hg of partial O2 pressure) with 95% N2 and 5% CO2 gas (about 40 mm Hg); inhibition of the response to TES was stabilized 30 minutes later. Reoxygenation partially reversed the response. Relaxations caused by exogenous NO were not influenced by hypoxia. Inhibition by hypoxia of the response to TES was not affected by superoxide dismutase. However, the inhibitory effect was prevented by amiloride and dimethyl-amiloride, Na(+)-H+ exchange inhibitors, or acidosis caused by the addition of HCl. The inhibition by hypoxia was reversed by amiloride. It is concluded that depression by hypoxia of the response mediated by endogenous NO is associated with impaired membrane function caused by restoration of normal intracellular pH by Na(+)-H+ exchanger.
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PMID:Hypoxia-induced inhibition of the response to nitroxidergic nerve stimulation in canine cerebral arteries. 927 Apr 98

The interaction between primary afferent neurons containing neuropeptides and the vascular smooth muscle is incompletely understood. To explore the function of perivascular afferent neurons and to determine whether they produce local effects on vascular smooth muscle cells, we investigated the effects of acute capsaicin and substance P administration in vitro on human internal thoracic arteries (ITA). Vessels were obtained from patients undergoing coronary bypass or from multiorgan transplant donors. Fourteen ITA segments (5 mm wide) were suspended as rings between two stainless-steel stirrups in water-jacketed (37 degrees C) tissue baths under 2.5 to 3 g of basal tension. The tissue baths contained 10 mL physiological salt solution (PSS) of the following composition (mM): NaCl, 119; KCl, 4.7; NaH2PO4, 1.0; MgCl2, 0.5; CaCl2, 2.5; NaHCO3, 25; and glucose, 11; aerated continuously with 95% O2 and 5% CO2. Peptidase inhibitors (phosphoramidon and captopril) were added to PSS to decrease peptide degradation. Mechanical responses were measured isometrically and recorded on a polygraph via isotonic force transducers. Vessels were preconstricted with submaximal concentrations of norepinephrine. After the tension had stabilized, substance P or capsaicin was added cumulatively to the tissue bath. At the end of the experiments, the viability of ITA was verified by its responses to endothelial-dependent (acetylcholine) and endothelial-independent (sodium nitroprusside) vasodilators. In the endothelium-intact ITA segments, substance P produced relaxation of ITA smooth muscle while it induced slight contraction when the ITA was devoid of its endothelium (P = 0.0585). The addition of capsaicin to human ITA primarily produced contractile effects on the developed smooth muscle force. The capsaicin-induced contraction of the ITA smooth muscle was independent of endothelial cell integrity, although contraction was greater in the endothelium-intact ITA segments (P = 0.0165). The acute capsaicin exposure of human ITA revealed that primary afferent neurons containing neuropeptides innervate human ITAs. There is a real potential for perivascular afferent neurons and sensory peptides to influence the ITA smooth muscle function.
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PMID:Neurogenic vasoreactive response of human internal thoracic artery smooth muscle. 934 13

We hypothesized that the direct stimulus of the central chemoreceptor neurons is the CO2/H+-induced change in intracellular pH (pHi). If it is true, pHi responses during hypercapnic stimulation should be exhibited in the central chemoreceptor neurons in the ventral medullary surface (VMS) and some neurons in the CO2/H+ sensitive regions such as the nucleus tractus solitarii of the medial dorsal medulla (MDM). To test this hypothesis, the cultured VMS and MDM neurons (control) derived from one day-old neonate rats were labeled with H+-sensitive fluorescent indicator 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein (BCECF), and were exposed to perfusate of various pHs. The H+-sensitive neurons were determined by a rapid decrease in the intracellular BCECF fluorescence intensity. In almost all the MDM neurons (99.6%) and 94% of the VMS neurons, the intracellular BCECF fluorescence intensity remained unchanged when the extracellular pH (pHo) was decreased. In contrast, in 0.4% of the MDM neurons (8/1800) and in 6% of the VMS neurons (111/1800), the intracellular BCECF fluorescence intensity decreased when the pHo was decreased from 7.4 to 7.2. This subpopulation of MDM and VMS neurons were considered to be H+-sensitive neurons. The H+-sensitive neurons in the VMS showed positive immunoreactivity to glutamate (57%, 17/30) and glutamic acid decarboxylase (23%, 7/30), but no immunoreactivity to choline acetyltransferase, tyrosine hydroxylase, phenylethanolamine N-methyltransferase, somatostatin, serotonin and substance P. These results indicate that the H+-sensitive neurons are present specifically in the VMS, and are mainly glutamatergic and GABAergic.
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PMID:In vitro study of H+-sensitive neurons in the ventral medullary surface of neonate rats. 944 17

We aimed to clarify the topology and immunohistochemistry of CO2/H+-sensitive neurons in the ventral medullary surface (VMS), the central chemoreceptor area in rats. Inhalation of 3 and 7% CO2 in air significantly decreased pH in arterial blood and increased paCO2, which caused hyperpneic and tachypneic responses. Following inhalation of 3 and 7% CO2 in air for 5 min, the density of c-Fos-immunoreactive (IR) neurons increased stepwise not only in the 3rd-5th divisions of the VMS (between the caudal end of the nucleus corporis trapezoidei and the caudal end of the area postrema), but also in the rostroventromedial medulla (RVMM). Following inhalation of 7% CO2 in air for 5 min, glutamate-, glutamic acid decarboxylase (GAD)-, calcineurin- and cAMP-IR neurons were found not only in the VMS, but also in the RVMM. The topology of these neurons was similar to that of the c-Fos-IR neurons. No immunoreactivity was found for serotonin, substance P, somatostatin, cholecystokinin-octapeptide, methionine-enkephalin, choline acetyltransferase, tyrosine hydroxylase, phenylethanolamine N-methyltransferase, NO-synthase, S-100, calbindin-D, calmodulin, or parvalbumin. The densities of c-Fos-, glutamate-, GAD-, calcineurin- and cAMP-IR neurons were almost zero in the 1st division of the VMS, but became higher along the 2nd-4th divisions of the VMS. Regression lines of the density against the 1st-4th divisions of the VMS were significantly linear. These results indicate that H+-sensitive neurons are common in the 4th-5th divisions of the VMS, and that they are glutamatergic, GABAergic, and containing calcineurin and cAMP.
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PMID:Topology and immunohistochemistry of proton-sensitive neurons in the ventral medullary surface of rats. 947 76

The distribution of substance P-immunoreactive and calcitonin gene-related peptide-immunoreactive nerve fibers in the nasal mucosa was compared between normoxic and chronically hypoxic rats (10% O2 and 3.0-4.0% CO2 for 3 months). In the normoxic nasal mucosa, substance P- and calcitonin gene-related peptide-immunoreactive nerve fibers were found within and under the epithelium and around the glands and blood vessels in the lamina propria. These immunoreactive fibers have many varicosities. In the chronically hypoxic nasal mucosa, the relative density of intra- and subepithelial substance P-immunoreactive and calcitonin gene-related peptide-immunoreactive fibers and those in the lamina propria was higher than in normoxic mucosa. The length of substance P-positive fibers within the chronically hypoxic olfactory and respiratory epithelium was 1.66 and 2.45 times higher than within the normoxic epithelium, respectively. The length of calcitonin gene-related peptide-immunostained fibers within the chronically hypoxic olfactory and respiratory epithelium was 1.56 and 1.84 times higher, respectively. Because substance P and calcitonin gene-related peptide are the predominant signal peptides of primary sensory neurons, the increased number of these fibers may represent enhanced sensory mechanisms in the hypoxic nasal mucosa. In addition, considered together with the findings in chronically hypoxic tracheal mucosa, the increased density of intraepithelial fibers containing substance P and calcitonin gene-related peptide suggests that this is a predominant feature of hypoxic adaptation throughout the upper and lower respiratory tracts.
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PMID:Substance P- and calcitonin gene-related peptide-containing nerve fibers in the nasal mucosa of chronically hypoxic rats. 956 99

The abundance of substance P (SP)-, calcitonin gene-related peptide (CGRP)-, vasoactive intestinal polypeptide (VIP)-, and neuropeptide Y (NPY)-immunoreactive nerve fibers in the carotid body was compared between normoxic and chronically hypoxic rats (10% O2 and 3.0-4.0% CO2 for 3 months). The immunoreactive fibers appeared as thin processes with many varicosities, and were distributed mainly around the vasculatures. In the normoxic control carotid body, NPY fibers were more numerous than VIP, CGRP, and SP fibers. In the chronically hypoxic rats, the carotid body was enlarged several fold, and the mean absolute number of VIP and NPY fibers was 3.88 and 2.22 times higher than in the normoxic carotid body, respectively, although that of SP and CGRP fibers was not changed. When expressed as density per unit area of the parenchyma, the density of SP and CGRP fibers in the chronically hypoxic carotid body decreased significantly to under 50%, the density of VIP fibers increased significantly 1.80 times, and the density of NPY fibers were unchanged. Immunoreactivity for four neuropeptides was not found in the glomus cells of normoxic or chronically hypoxic carotid bodies. These results suggest that altered peptidergic innervation of the chronically hypoxic carotid body is one feature of hypoxic adaptation. Because these neuropeptides are vasoactive in nature, altered carotid body circulation may contribute to modulation of the chemosensory mechanisms by chronic hypoxia.
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PMID:Hypoxic adaptation of the peptidergic innervation in the rat carotid body. 973 32


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