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)

The effects of nitric oxide (NO) on the spontaneous release of 5-hydroxytryptamine (5-HT) were studied in the in vitro vascularly perfused guinea-pig small intestine. The NO donor SIN-1 concentration-dependently decreased 5-HT release with an EC50 of 1.34 microM, whereas the NO synthase inhibitor N(G)-nitro-L-arginine (100 microM) was without effect. The inhibition by SIN-1 of 5-HT release was enhanced by superoxide dismutase (150 U/ml) and antagonized by the selective inhibitor of soluble guanylyl cyclase, ODQ (1 microM). Tetrodotoxin (1 microM) prevented the inhibition by SIN-1 of 5-HT release, which suggests that the effect of SIN-1 is indirectly mediated via release of an inhibitory neurotransmitter. Substance P could be excluded as inhibitory transmitter because the effect of SIN-1 remained unchanged in the presence of the NK1 receptor antagonist CP 99994 (100 nM). The cyclic GMP analogue, 8-bromo cyclic GMP (300 microM), also decreased basal release of 5-HT, but this decrease was not tetrodotoxin-sensitive. It is concluded that NO inhibits the release of 5-HT from enterochromaffin cells via release of an enteric neurotransmitter. Acetylcholine (via nicotinic receptors) and substance P (via NK1 receptors) are not involved in the NO-mediated inhibition. The inhibition of 5-HT outflow by NO is due to the activation of soluble guanylyl cyclase. 8-Bromo cyclic GMP inhibited 5-HT release by a direct effect on the enterochromaffin cells.
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PMID:Inhibition by nitric oxide and cyclic GMP of 5-hydroxytryptamine release from the vascularly perfused guinea-pig small intestine. 967 48

In this study, we have used radioligand binding and functional techniques to investigate tachykinin receptors in the small intestine of the cane toad Bufo marinus. The radioligand [125I]Bolton-Hunter [Sar9,Met(O2)11]substance P (selective at mammalian NK-1 receptors) showed no specific binding. Specific binding of [125I]Bolton-Hunter substance P ([125I]BHSP) was saturable, of high affinity (Kd 0.3 nM) and was inhibited by SP (IC50 0.64 nM) > ranakinin approximately neurokinin A (NKA) > or = SP(5-11) > or = neuropeptide gamma > or = scyliorhinin II > scyliorhinin I > or = [Sar9]-SP > or = neurokinin B approximately physalaemin approximately carassin >> SP(7-11) approximately eledoisin > or = SP(4-11) approximately SP(6-11). Binding was also inhibited by Gpp[NH]p > or = GTPgammaS > App[NH]p, indicating a G-protein coupled receptor. The order of potency of tachykinins and analogues in contracting the isolated lower small intestine was carassin (EC50 1.4 nM) > eledoisin approximately SP > or = physalaemin > or = ranakinin > SP(6-11) > scyliorhinin II > or = neuropeptide gamma > neurokinin B approximately NKA approximately scyliorhinin I > or = SP(4-11) > or = SP(5-11) > [Sar9]SP > SP(7-11). In both studies, the selective mammalian NK-1, NK-2 and NK-3 receptor agonists [Sar9,Met(O2)11]SP, [Lys5,Me-Leu9,Nle10]NKA(4-10) and senktide were weak or ineffective. There was a strong positive correlation between the pD2 and pIC50 values for mammalian tachykinins and analogues (r = 0.907), but not for the non-mammalian tachykinins, which were all full agonists but variable binding competitors. [Sar9,Met(O2)11]-SP(pD2 5.7) was approximately 25-fold less potent as an agonist than [Sar9]SP, which was itself 25-fold weaker than SP. Responses to SP were significantly reduced (n = 8, P<0.001) by the antagonist [D-Arg1,D-Trp7,9,Leu11]-SP (spantide; 1 microM). Highly selective NK-1 receptor antagonists including CP 99994 and GR 82334 (both 1 microM) were ineffective in both functional and binding studies. Tetrodotoxin (1 microM) did not inhibit contractile responses to SP, NKA and senktide. In summary, this study has shown the presence of one or more tachykinin receptor in the toad intestine. The binding site recognised by [125I]BHSP prefers SP and ranakinin. This toad "NK-1-like receptor" differs from the mammalian NK-1 receptor in having a low affinity for all mammalian NK-1 selective ligands, including antagonists. For some non-mammalian peptides, their high potency as contractile agonists relative to their poor binding affinity suggests the existence of other tachykinin receptors in the toad small intestine.
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PMID:Tachykinin receptors in the small intestine of the cane toad (Bufo marinus): a radioligand binding and functional study. 968 47

Application of electrical field stimulation (EFS; trains of 10 Hz, 0.25 ms pulse width, supramaximal voltage for 60 s) to the guinea-pig isolated common bile duct pretreated with atropine (1 microM), produced a slowly-developing contraction ('on' response) followed by a quick phasic 'off' contraction ('off peak' response) and a tonic response ('off late' response), averaging 16+/-2, 73+/-3 and 20+/-4% of the maximal contraction to KCl (80 mM), n=20 each, respectively. Tetrodotoxin (1 microM; 15 min before) abolished the overall response to EFS (n 8). Neither in vitro capsaicin pretreatment (10 microM for 15 min), nor guanethidine (3 microM, 60 min before) affected the excitatory response to EFS (n 5 each), showing that neither primary sensory neurons, nor sympathetic nerves were involved. Nomega-nitro-L-arginine (L-NOARG, 100 microM, 60 min before) or naloxone (10 microM, 30 min before) significantly enhanced the 'on' response (294+/-56 and 205+/-25% increase, respectively; n=6-8, P<0.01) to EFS. The combined administration of L-NOARG and naloxone produced additive enhancing effects (655+/-90% increase of the 'on' component, n = 6, P<0.05). The tachykinin NK2 receptor-selective antagonist MEN 11420 (1 microM) almost abolished both the 'on' and 'off late' responses (P<0.01: n=5 each) to EFS, and reduced the 'off-peak' contraction by 55+/-8% (n=5, P<0.01). The subsequent administration of the tachykinin NK1 receptor-selective antagonist GR 82334 (1 microM) and of the tachykinin NK3 receptor-selective antagonist SR 142801 (30 nM), in the presence of MEN 11420 (1 microM), did not produce any further inhibition of the response to EFS (P>0.05; n=5 each). At 3 microM, GR 82334 significantly reduced (by 68+/-9%, P<0.05, n=6) the 'on' response to EFS. The contractile 'off peak' response to EFS observed in the presence of both MEN 11420 and GR 82334 (3 microM each) was abolished (P<0.01; n=6) by the administration of the P2 purinoceptor antagonist pyridoxalphosphate-6-azophenyl-2',4'-disulphonic acid (PPADS, 30 microM). PPADS (30 microM) selectively blocked (75+/-9 and 50+/-7% inhibition, n = 4 each) the contractile responses produced by 100 and 300 microM ATP. Tachykinin-containing nerve fibres were detected by using immunohistochemical techniques in all parts of the bile duct, being distributed to the muscle layer and lamina propria of mucosa. In the terminal part of the duct (ampulla) some labelled ganglion cells were observed. In conclusion, this study shows that in the guinea-pig terminal biliary tract tachykinins, released from intrinsic neuronal elements, are the main NANC excitatory neurotransmitters, which act by stimulating tachykinin NK2 (and possibly NK1) receptors. ATP is also involved as excitatory neurotransmitter. Nitric oxide and opioids act as inhibitory mediators/modulators in this preparation.
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PMID:Evidence that tachykinins are the main NANC excitatory neurotransmitters in the guinea-pig common bile duct. 975 87

The sensory neuron stimulant drug capsaicin stimulates primary afferent nerve endings in the guinea-pig small intestine, which in turn activate myenteric cholinergic neurons by an unknown mechanism. The tachykinins substance P and neurokinin A are present in primary afferent neurons. This study was performed to assess the possible involvement of endogenous tachykinins acting via neurokinin-1, neurokinin-2 and neurokinin-3 receptors in the contractile effect of capsaicin in the isolated guinea-pig ileum and oesophagus by using the receptor-specific antagonists GR 82334 (3 microM) for neurokinin-1 receptors, MEN 10627 (3 microM; ileum) or MEN 11420 (1 microM; oesophagus) for neurokinin-2 receptors and SR 142801 (0.1 microM) for neurokinin-3 receptors. In the ileum, the peak contraction evoked by capsaicin (2 microM) was not reduced when tachykinin neurokinin-1, neurokinin-2 or neurokinin-3 receptors were blocked separately, whereas an inhibition of neurokinin-3 receptors diminished the area under the curve of the capsaicin response. A combined blockade of neurokinin-1 and neurokinin-3 receptors significantly depressed the effect of capsaicin; the amplitude of the contractile response was 53.3+/-3.7% of the maximal longitudinal spasm in control preparations, whereas in the presence of GR 82334 plus SR 142801 it reached only 27.6+/-5% (P<0.001, Kruskal-Wallis test; n=9 and 10, respectively). Also, the area under the curve of the contractile response to capsaicin was more than 85% lower in the group of preparations treated with GR 82334 plus SR 142801 than in the control group (P<0.001). Including a neurokinin-2 blocker in the combination did not produce any further inhibition. A concomitant tachyphylaxis to substance P (natural neurokinin-1 receptor stimulant) and the neurokinin-3 receptor agonist senktide (5 and 1 microM, respectively) also reduced the contractile effect of capsaicin. In the oesophagus, capsaicin (1 microM) induced biphasic contractions which were strongly inhibited by atropine (1 microM) or capsaicin pretreatment (1 microM for 10 min). Here again, a blockade of tachykinin neurokinin-1, neurokinin-2 or neurokinin-3 receptors separately failed to inhibit the response to capsaicin, whereas a combined blockade of any two tachykinin receptors caused a partial inhibition. The reduction of the contractile effect of capsaicin was strongest when all three tachykinin receptors were blocked. In seven control preparations, peaks for the first and second phases of contraction reached 35.3+/-3.7% and 20+/-3.2% of maximal longitudinal spasm; the corresponding values in the presence of a combination of GR 82334, MEN 11420 and SR 142801 were 7.5+/-0.8% and 9.1+/-2.2%, respectively (n=6, P<0.001 and 0.05, respectively). Tetrodotoxin (0.5 microM) practically abolished the contractile effect of capsaicin in both tissues studied. It is concluded that an interplay of neuronal tachykinin neurokinin-1 and neurokinin-3 receptors (ileum) and neurokinin-1, neurokinin-2 and neurokinin-3 receptors (oesophagus) is involved in the contractile action of capsaicin, probably in mediating excitation of myenteric neurons by tachykinins released from primary afferents. In both tissues, there also seems to be a non-tachykininergic component of the capsaicin-induced contraction.
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PMID:Tachykinin receptors are involved in the "local efferent" motor response to capsaicin in the guinea-pig small intestine and oesophagus. 1018 48

Nearly 30% of patients treated with metformin experience gastrointestinal side effects. Since release of 5-hydroxytryptamine (5-HT) from the intestine is associated with nausea, vomiting, and diarrhea, we examined whether metformin induces 5-HT release from the intestinal mucosa. In 40% of tissue biopsy specimens of human duodenal mucosa, metformin (1, 10, and 30 microM) caused an increase in 5-HT outflow by 35, 70, and 98%, respectively. Peak increases in 5-HT outflow were observed after 10-15 min exposure to metformin, returning to baseline levels after 25 min. Tetrodotoxin (1 microM) reduced by about 50% the metformin-evoked increase in 5-HT outflow (P<0.05). Metformin-evoked release was not affected by scopolamine + hexamethonium, propranolol, the 5-HT3 receptor antagonist dolasetron, naloxone, or the NK1 receptor antagonist L703606. In the presence of tetrodotoxin (1 microM), somatostatin (1 microM) further reduced metformin-induced 5-HT release by 15-20%. In view of the 5-HT releasing effects of selective 5-HT3 receptor agonists to which metformin (N-N-dimethylbiguanide) is structurally related, we investigated whether metformin directly interacts with 5-HT3 receptors. Receptor binding (inhibition of [3H]-GR65630 binding) and agonist effects (stimulation of [14C]-guanidinium influx) at 5-HT3 receptors were studied in murine neuroblastoma N1E-115 cells, which express functional 5-HT3 receptors. Metformin up to 0.3 mM failed to inhibit [3H]-GR65630 binding and to modify displacement of [3H]-GR65630 binding induced by 5-HT. 5-HT (3 microM) stimulated the influx of [14C]-guanidinium in intact N1E-115 cells. Metformin up to 1 mM failed to modify basal influx, 5-HT-induced influx, and 5-HT+ substance P-induced influx of [14C]-guanidinium. Our results indicate that metformin induces 5-HT3 receptor-independent release of 5-HT from human duodenal mucosa via neuronal and non-neuronal mechanisms. Part of the gastrointestinal side effects observed during treatment with metformin could, thus, be produced by the release of 5-HT and other neurotransmitter substances within the duodenal mucosa.
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PMID:Effects of metformin on intestinal 5-hydroxytryptamine (5-HT) release and on 5-HT3 receptors. 1065 Nov 52

The role of endogenous tachykinins and the mechanisms whereby they act on NK2 receptors, modulating spontaneous motility, were investigated in rat isolated proximal colon. The mechanical activity was detected as changes in intraluminal pressure. The NK2 receptor antagonist, MEN 10627, produced a concentration-dependent reduction of the contraction amplitude. [beta-Ala8]-neurokinin A(4-10), an NK2 receptor agonist, and [Sar9, Met(O2)11]-Substance P ([Sar9, Met(O2)11]-SP), an NK1 receptor agonist, induced a concentration-dependent contractile response, characterized by an increase in basal tone with superimposed phasic contractions. MEN 10627 antagonized the response to [beta-Ala8]-neurokinin A(4-10), without affecting that to [Sar9, Met(O2)11]-SP. Tetrodotoxin (TTX), hexamethonium and Nomega-nitro-L-arginine methyl ester (L-NAME) significantly reduced the response to MEN 10627. The NK3 receptor agonist, senktide, was able to activate the nitrergic inhibitory pathway, as it induced a TTX-and L-NAME-sensitive inhibitory effect. [beta-Ala8]-neurokinin A(4-10) was able to antagonize the inhibitory response to senktide. These findings suggest that tachykinins acting on NK2 receptors play a role in the modulation of the spontaneous mechanical activity. The mechanism of this action would be, in part, acting directly on the smooth muscle cells, and, in part neurogenic, sustained by nicotinic inputs, and possibly due to inhibition of NO tonic release.
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PMID:Involvement of tachykinin NK2 receptors in the modulation of spontaneous motility in rat proximal colon. 1101 46

Three experiments were performed to see whether cardiac neurons contribute to the intrinsic control of heart rate in right atria of adult rats. The intrinsic heart rate response (IRR) was examined by raising right atrial pressure from 2 to 8 mmHg for 3 min. In isolated preparations of the right atrium, the IRR was not significantly altered by the addition of either 1 microM atropine (n =6; control +19+/- 3 min(-1) ; atropine+18+/-3 min(-1); (mean /+/-S.E.M.)) or 1 microM propranolol (n = 5; control +22+/- 4 min(-1); ; propranolol +21+/-3 min(-1); ). Tetrodotoxin (0.5 microm) had no effect on the IRR (n = 6; control +37+/-5 min(-1); tetrodotoxin 38+/-5 min(-1); ). In another experiment, 2-day-old rat pups were injected with capsaicin (50 mg kg(-1); treated) or with vehicle(control). There was no difference in the IRR of right atrial preparations taken from control and treated animals after they reached adulthood (control (n = 7) and treated (n = 8): +30+/- 4 and +32+/- 4 min(-1)). The influence of right atrial pressure on the efficacy of vagal stimulation was examined. The rate response to vagal stimulation was reduced similarly in control and treated preparations when pressure was elevated from 2 to 4 mmHg (control and treated: -34+/- 5% and -33+/- 3%). The effectiveness of the capsaicin treatment was confirmed by the depletion of substance P-immunoreactive nerve fibres in cardiac tissues. Together, these results strongly suggest that cardiac neurons are not involved in intrinsic heart rate control.
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PMID:Do cardiac neurons play a role in the intrinsic control of heart rate in the rat? 1253 Apr

In the rat isolated urinary bladder, NaHS (30 microm-3 mm) and capsaicin (10 nm-3 microm) produced concentration-dependent contractile responses (pEC(50)=3.5+/-0.02 and 7.1+/-0.02, respectively) undergoing dramatic tachyphylaxis. In preparations in which sensory nerves were rendered desensitized (defunctionalized) by high-capsaicin (10 microm for 15 min) pretreatment, neither capsaicin itself nor NaHS produced any motor effect. NaHS-induced contractile effects were totally prevented by the simultaneous incubation with tachykinin NK(1) (GR 82334; 10 microm) and NK(2) (nepadutant; 0.3 microm) receptor-selective antagonists. Tetrodotoxin (1 microm) only partially reduced the response to NaHS. These results provide pharmacological evidence that H(2)S stimulates capsaicin-sensitive primary afferent nerve terminals, from which tachykinins are released to produce the observed contraction by activating NK(1) and NK(2) receptors. While the molecular site of action of H(2)S remains to be investigated, our discovery may have important physiological significance since H(2)S concentrations capable of stimulating sensory nerves overlap those occurring in mammalian tissues under normal conditions.
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PMID:Hydrogen sulfide (H2S) stimulates capsaicin-sensitive primary afferent neurons in the rat urinary bladder. 1505 28

We investigated whether substance P modulates pacemaker currents generated in cultured interstitial cells of Cajal of murine small intestine using whole cell patch-clamp techniques at 30 degrees C. Interstitial cells of Cajal generated spontaneous inward currents (pacemaker currents) at a holding potential of -70 mV. Tetrodotoxin, nifedipine, tetraethylammonium, 4-aminopyridine, or glibenclamide did not change the frequency and amplitude of pacemaker currents. However, divalent cations (Ni2+, Mn2+, Cd2+, and Co2+), nonselective cationic channel blockers (gadolinium and flufenamic acid), and a reduction of external Na+ from normal to 1 mM inhibited pacemaker currents indicating that nonselective cation channels are involved in their generation. Substance P depolarized the membrane potential in current clamp mode and produced tonic inward pacemaker currents with reduced frequency and amplitude in voltage clamp mode. [D-Arg1, D-Trp7,9, Leu11] substance P, a tachykinin NK1 receptor antagonist, blocked these substance P-induced responses. Furthermore, [Sar9, Met(O2)11] substance P, a specific tachykinin NK1 receptor agonist, depolarized the membrane and tonic inward currents mimicked those of substance P. Substance P continued to produce tonic inward currents in external Ca2+-free solution or in the presence of chelerythrine, a protein kinase C inhibitor. However, substance P-induced tonic inward currents were blocked by thapsigargin, a Ca2+-ATPase inhibitor in the endoplasmic reticulum or by an external 1 mM Na+ solution. Our results demonstrate that substance P may modulate intestinal motility by acting on the interstitial cells of Cajal by activating nonselective cation channels via the release of intracellular Ca2+ induced by tachykinin NK1 receptor stimulation.
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PMID:Substance P induces inward current and regulates pacemaker currents through tachykinin NK1 receptor in cultured interstitial cells of Cajal of murine small intestine. 1521 18

The aim of this study was to determine the action of capsaicin in isolated rat intestine and the origin of nerve fibers expressing transient receptor potential vanilloid 1 (TRPV1: capsaicin receptor) in the rat jejunum by combination of functional and immunohistochemical experiments. Capsaicin (1 microM) produced a prolonged relaxation response (52. +/-15.3% of the relaxation response to papaverine, mean +/- S.D., n=27) of the isolated jejunum in the presence of atropine and guanethidine. Pretreatment with the TRPV1 antagonist, capsazepine (10 microM) and ruthenium red (3 microM) significantly reduced the relaxation response to capsaicin by 78% (P<0.01) and 38% (P<0.05), respectively. Tetrodotoxin and calcitonin gene-related peptide (CGRP)-desensitization significantly reduced the response to capsaicin by 72% (P<0.01) and 42% (P<0.01), respectively. Therefore, we investigated the distribution of TRPV1-immunoreactivity (IR) in the myenteric plexus of the rat jejunum. Using antisera raised against either the N-terminal or C-terminal domains of rat TRPV1, TRPV1-IR was present in the nerve fibers, but not in the cell bodies of myenteric neurons. These TRPV1-immunoreactive nerve fibers were running in myenteric ganglia and their interconnecting strands. Most TRPV1-immunoreactive nerve fibers showed CGRP-IR, whereas few VR1-immunoreactive nerve fibers showed substance P-IR. After chronic denervation of the extrinsic nerve supply to the jejunum, both the relaxation response to capsaicin and TRPV1-immunoreactive nerve fibers completely disappeared. These findings indicate that these TRPV1-immunoreactive nerve fibers in the rat jejunum derive from extrinsic neurons and that activation of TRPV1 produces the relaxation response in the rat jejunum, at least in part, through the release of CGRP from nerve fibers expressing TRPV1.
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PMID:Combined determination with functional and morphological studies of origin of nerve fibers expressing transient receptor potential vanilloid 1 in the myenteric plexus of the rat jejunum. 1555 33

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