UNIPROT:P20366 - FACTA Search

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

Query: UNIPROT:P20366 (substance P)
21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study was undertaken to assess whether a hypothalamic extract has any direct metabolic action on adipose and muscle tissues. An acid bovine hypothalamic extract (HE) was tested for its effect on the utilization of D[U-14C]glucose by isolated rat adipocytes and rat hemidiaphragms. The HE was ineffective in stimulating the conversion of labeled glucose into CO2 and glycogen by rat hemidiaphragm. However, in isolated adipocytes, the HE had significant lipogenic activity. This lipogenic effect was independent of insulin and nonsuppressible by insulin antibodies. The dose-response curve was linear and saturable. That insulin and the HE were not additive at maximal concentrations suggests that they act through a common rate-limiting step, possibly a receptor site. Other hypothalamic substances tested (thyrotropin-releasing hormone, luteinizing hormone-releasing hormone, and substance P) showed no lipogenic activity. Somatostatin (6 microgram/ml) was an insulin potentiator but only when preincubated with the fat cells. It is concluded that the hypothalamic regulation of body weight may be mediated by a neurohumoral mechanism affecting adipose tissue stores.
...
PMID:Effect of a bovine hypothalamic extract on glucose utilization by rat adipocytes. 66 59

Local injection of substance P (SP) into the ventral portion of the nucleus gigantocellularis, nucleus reticularis lateralis, and nucleus retrofacialis of the ventrolateral medulla oblongata (VLM) or direct application on the ventral surface of the medulla oblongata caused marked stimulation of tidal volume (VT) and/or minute ventilation (VE). The ventilatory response to hypoxia was significantly blunted after SP in the VLM but not in the dorsal medulla oblongata (DM) (nucleus tractus solitarius). The SP antagonist [D-Pro2,D-Trp7,9]SP almost completely inhibited this response when applied locally to a wide area of the superficial layer of the VLM but not of the DM. Unilateral or bilateral application of 0.3-1.5 nmol of the SP antagonist in the VLM (corpus trapezoideum and the caudal region extending from the rootlets of the nucleus hypoglossus to the first cervical segment) markedly attenuated the response to a 5% CO2 inhalation. The inhibition of the CO2 response was seen after [D-Pro2,D-Trp7,9]SP in the rostral areas of the medulla oblongata corresponding to the corpus trapezoideum and the caudal region extending from the rootlets of the nucleus hypoglossus to the first cervical segment of the cervical cord. Electric somatosensory-induced ventilatory stimulation could be depressed by approximately 70% by [D-Pro2,D-Trp7,9]SP locally applied on the surface of the VLM. We conclude that SP is involved in the hypoxic, hypercapnic, and somatosensory ventilatory responses in the rat. However, these respiratory reflexes are mediated via different neuronal pools in the medulla oblongata, mainly the VLM.
...
PMID:Substance P in the ventrolateral medulla oblongata regulates ventilatory responses. 169 74

1. Responses of primary sensory neurons to substance P applications by perfusion were studied with intracellular recording techniques in in vitro slice preparations of trigeminal root ganglia (guinea pigs). Application of substance P in micromolar doses produced reversible depolarizations of 2-47 mV in 48 out of 64 neurons. The depolarizing influence facilitated repetitive spike discharge evoked by current-pulse injection. Evidence of desensitization was observed during prolonged or repeated applications of the peptide. 2. The responses to substance P were associated with decreased input resistance, although increased input resistance was observed in neurons where the resting membrane potential was compensated with DC injection. In single-electrode voltage-clamp (SEVC) recordings, substance P evoked an inward shift in the holding current and reduced an outwardly rectifying component in the I-V relationships. The reversal potential for the substance P response could not be determined. These results suggested that the perikaryal response to substance P has a complex ionic mechanism involving activation and deactivation of membrane conductances. 3. Substance P-induced depolarizations were greatly attenuated during perfusion with solutions that were deficient in [Na+] or [Mg2+] and were not significantly affected during perfusion with low-[Ca2+]-, CO2(+)-containing solutions. 4. In the voltage-clamp investigations, an inward current contributed to the substance P responses during combined application with the K(+)-channel blockers, 4-aminopyridine (4-AP) and tetraethylammonium (TEA). This current was not abolished by the inclusion of CsCl in the perfusing solution or by internal Cs+ application from the recording electrode, suggesting that an anomalous inward rectifier was not involved in the responses to substance P.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Ionic mechanism of substance P actions on neurons in trigeminal root ganglia. 169 60

Ventilatory responses to hypoxia and hypercapnia were measured by indirect plethysmography in unanesthetized unrestrained adult rats injected neonatally with capsaicin (50 mg/kg) or vehicle. Such capsaicin treatment ablates a subpopulation of primary afferent fibers containing substance P and various other neuropeptides. Ventilation was measured while the rats breathed air, 12% O2 in N2, 8% O2 in N2, 5% CO2 in O2, or 8% CO2 in O2. Neonatal treatment with capsaicin caused marked alterations in both the magnitude and composition of the hypoxic but not hypercapnic ventilatory response. The increase in minute ventilation evoked by hypoxia in the vehicle-treated rats resulted entirely from an increase in respiratory frequency. In the capsaicin-treated rats the hypoxic ventilatory response was significantly reduced owing to an attenuation of the frequency response. Although both groups responded to hypoxia with a shortening in inspiratory and expiratory times, rats treated with capsaicin displayed less shortening of both respiratory phases. By contrast, hypercapnia induced a brisk ventilatory response in the capsaicin-treated group that was similar in magnitude and pattern to that observed in the vehicle-treated group. Analysis of the components of the hypercapnic ventilatory responses revealed no significant differences between the two groups. We, therefore, conclude that neuropeptide-containing C-fibers are essential for the tachypnic component of the ventilatory response to hypoxia but not hypercapnia.
...
PMID:Ventilatory responses to hypoxia and hypercapnia in awake rats pretreated with capsaicin. 170 32

Possible differences in the abilities of esophageal body and lower esophageal sphincter muscles to utilize substrates to support agonist-induced contractions were studied. Strips of longitudinal, circular, and lower esophageal sphincter muscle from the opossum esophagus were first contracted to approximately 70% of the maximal contraction elicited by acetylcholine, histamine, or substance P. The tissues were then exhausted by exposure to 5 x 10(-4) M carbachol and a 15% O2-5% CO2-80% N2 gas mixture for 90 min. They were next reequilibrated with one of a number of alternative substrates and 95% O2-5% CO2 for 3 hr. Responses to the initial agonist doses were again noted and compared to controls. The alternative substrates were: 2-deoxyglucose, glucose, fructose 1-6 diphosphate, pyruvate, lactate, acetate, butyrate, caprylate, histidine, leucine, aspartate, alanine, succinate, acetoacetone, and beta-hydroxybutyrate. The results obtained show qualitative differences in the ability of the three muscle types to use these substrates. More importantly, however, the ability of any one substrate to support contractions was a function of the agonist used to stimulate the muscle. The evidence suggests, therefore, that not all pharmacologic receptors have equal access to intracellular energy sources.
...
PMID:Paradoxical relationship between substrates and agonist-induced contractions of opossum esophageal body and sphincter in vitro. 171 20

To investigate the relationship between tachykinins and air ventilation-induced airway constriction after heart ligation, 26 guinea pigs were divided into three groups: Group 1, control (n = 15); Group 2, tachykinin depletion via pretreatment with capsaicin (n = 7); and Group 3, isocapnic ventilation (n = 4). To examine the age effect, the first two groups were further separated into two subgroups: young (n = 12) and mature (n = 10). Animals were anesthetized with pentobarbital, sternotomized and artificially ventilated with room air or with 5% CO2 gas mixture. Before (baseline) and after heart ligation, tidal volume and transpulmonary pressure (Ptp) were recorded during ventilation, and the maximal expiratory flow-volume curve was periodically obtained. Minimal volume (lung volume at Ptp = 0) was determined by neon dilution. Within 30 min after heart ligation in the control group, air ventilation significantly decreased dynamic compliance, vital capacity, peak maximal expiratory flow, maximal expiratory flow at 50% total lung capacity, and forced expiratory volume in 0.2 sec. Tachykinin depletion significantly prevented, whereas isocapnic (5% CO2) ventilation failed to alter, the above changes. Young and mature subgroups showed similar results. Our data indicate that air ventilation after heart ligation induced severe airway constriction and that this bronchoconstriction can be prevented by tachykinin depletion.
...
PMID:The role of tachykinins in air ventilation-induced bronchoconstriction in postmortem guinea pigs. 212 Jul 59

The effects of methionine enkephalin (ME) and substance P (SP) were tested on the chemosensory discharge of the cat carotid body-nerve preparation in vitro. ME superfused in concentrations of 10(-8) to 10(-5) M depressed the sensory discharge, an effect followed by receptor excitation (rebound). Bolus applications of ME (30 ng to 3.0 microgram) induced variable effects (excitation or depression) on the discharge, excitation being more pronounced with the smaller doses. Superfusions with SP (10(-8) to 10(-5) M) either excited or depressed the discharge, excitation being more pronounced with higher SP concentrations (i.e. 10(-6) M). Bolus applications of SP (43 ng to 0.5 micrograms) also excited or depressed the sensory discharge. These variations may be dose-dependent. Superfused ME (10(-6) M) significantly depressed the chemoreceptor response to hypoxia (100% N2) and hypercapnia (6% CO2, pH 7.43). The responses to NaCN and acidity (pH 6.0) were marginally depressed. Superfused SP (10(-6) M) clearly depressed the responses to hypoxia, those to hypercapnia and NaCN were marginally affected but the effects of acidity were not altered. When the peptides were tested against the receptor responses to exogenously applied putative neurotransmitters (ACh, dopamine--DA), it was found that ME tended to depress both the ACh and DA actions whereas SP (10(-6) M) tended to increase their effects. Superfusions with naloxone (10(-6) M) increased the basal chemosensory discharge and this enkephalin blocker partially relieved the depressant effect of ME on the ACh-induced response. It is concluded that carotid body chemoreceptors have excitatory and inhibitory reactive sites to both ME and SP although their precise location is still unknown.
...
PMID:Effects of methionine-enkephalin and substance P on the chemosensory discharge of the cat carotid body. 241 43

Neuroactive peptides, including the enkephalins (Met- and Leu-enkephalin; ME, LE) and substance P (SP) are known to be present in the mammalian carotid body, an arterial chemoreceptor organ sensitive to the O2, CO2 and pH levels in blood. The principal parenchymal (type I) cells of the organ, which receive sensory innervation from the carotid sinus nerve (CSN), have been shown to contain both ME and SP; SP is also present in CSN afferent fibers. In the present study, rabbits were exposed in a chamber to a physiological chemoreceptor stimulus (5% O2 in N2) for one hour, then anesthetized during surgical removal of both carotid bodies for later RIA measurement of ME and SP levels in the tissue; control animals were exposed to air in the chamber, but otherwise treated as the hypoxic animals. Both ME and SP levels were significantly reduced (approximately 40%) in the carotid bodies from hypoxic rabbits, compared to their normoxic controls. The results suggest that these neuroactive peptides are released from carotid body elements during physiological stimulation, and consequently may play a role in the transduction of chemosensory information between the type I cells and their apposed afferent terminals.
...
PMID:Physiological chemoreceptor stimulation decreases enkephalin and substance P in the carotid body. 243 86

Experiments were performed on 17 anesthetized, paralyzed, and artificially ventilated cats to evaluate the importance of substance P-like peptide (SP) on the carotid body responses to CO2. Single or paucifiber carotid chemoreceptor activity was recorded from the peripheral end of the cut carotid sinus nerve. In eight of the cats the influence of SP on hyperoxic hypercapnic responses was studied. While the animals breathed 100% O2, intracarotid infusion of SP (1 microgram.kg-1.min-1, 3 min) increased chemoreceptor activity by +4.8 +/- 0.3 impulses/s. After SP infusion, inhalation of CO2 in O2 caused a rapid increase in activity that reached a peak and then adapted to a lower level, whereas similar levels of CO2 before SP caused only a gradual increase in carotid body discharge rate without any overshoot in response. Furthermore SP significantly increased the magnitude and slope of the CO2 response. In the other nine cats the effect of intracarotid infusion of an SP antagonist, [D-Pro2,D-Trp7,9] SP (10-15 micrograms.kg-1.min-1), on carotid body responses to 1) hyperoxic hypercapnia (7% CO2-93% O2), 2) isocapnic hypoxia (11% O2-89% N2), and 3) hypoxic hypercapnia (11% O2-7% CO2-82% N2) was examined. SP antagonist had no effect on carotid body response to hyperoxic hypercapnia but significantly attenuated the chemoreceptor excitation caused by isocapnic hypoxia and hypoxic hypercapnia. These results suggest that 1) SP may play an important role in carotid body responses to hypoxia but not to CO2, and 2) the mechanisms of stimulation of the carotid body by hypercapnia and by hypoxia differ.
...
PMID:Role of substance P in hypercapnic excitation of carotid chemoreceptors. 244 16

Previous studies suggest that structures within 1 mm of the ventral surface of the medulla (VMS) are involved in the regulation of airway resistance. Furthermore, neurons containing tachykinin peptides have been observed near the surface of the VMS. In the present work, we examined the effects of mammalian tachykinins, substance P (SP) and neurokinin A (NKA), applied locally to the intermediate area of the VMS of cats on tracheal tone and phrenic nerve activity. Since neutral endopeptidase (enkephalinase) has been shown to degrade tachykinin peptides in other tissues, we also investigated the effect of the neutral endopeptidase (NEP) inhibitors (thiorphan and phosphoramidon) on airway tone and phrenic nerve responses to tachykinins when the animals were ventilated with 100% O2 and during hyperoxic hypercapnia and isocapnic hypoxia. Experiments were performed in chloralose-anesthetized cats hyperventilated to phrenic neural apnea or so that the end tidal CO2 was just above the apneic threshold. Trachealis smooth muscle tension was assessed by measuring changes in pressure in a balloon placed in a bypassed segment of trachea (Ptseg). Application to the VMS of SP (10(-5)-10(-3) M) significantly increased tracheal muscle tension. Similar effects were found with applications of NKA. In addition, thiorphan and phosphoramidon potentiated the effects of tachykinins and the responses to hypercapnia and hypoxia of tracheal tone and phrenic nerve activity. Pretreatment with atropine (1 mg/kg) blocked tracheal but not phrenic responses to tachykinins. These suggest that (1) tachykinins acting on structures located on the VMS can increase cholinergic outflow to the airways and augment respiratory motor output, and (2) NEP may be one important modulator of tachykinin-induced effects.
...
PMID:Central modulatory effects of tachykinin peptides on airway tone. 248 64

1 2 3 4 5 6 7 Next >>