EC:3.4.21.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.1 (chymotrypsin)
10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Both electrical field stimulation and nicotine produced non-adrenergic non-cholinergic (NANC) relaxation of the circular muscle strips from the cat lower esophageal sphincter in the presence of 5 microM guanethidine and 5 microM scopolamine. Low-frequency stimulation (2 Hz, 0.2 ms duration, supramaximal current intensity, 20-s train) provoked a transient relaxation, while at high-frequency stimulation (20 Hz) a slow restoration to the resting tone was observed. Blockade of nitric oxide (NO) synthesis by 1 mM N omega -nitro-L-arginine decreased by 20% the amplitude of the 20 Hz-induced relaxation and changed the pattern of relaxation, making it similar to the sustained relaxation evoked by exogenously applied vasoactive intestinal peptide (VIP). After chymotrypsin (4 U/ml), the pattern of the high-frequency-induced relaxation resembled that of the low-frequency-induced relaxation. Similarly, chymotrypsin changed the shape of nicotine-provoked relaxation, increasing the speed of restoration to the resting tone. We suggest that the fast relaxation elicited in cat lower esophageal sphincter by electrical field stimulation or nicotine is initiated by NO. The slow restoration to the resting tone in the case of high-frequency- or nicotine-induced relaxation seems to be due to the release of VIP or VIP-like peptides. The possibility of participation of another transmitter(s) involved in NANC relaxation should not be excluded.
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PMID:Non-adrenergic non-cholinergic neuron stimulation in the cat lower esophageal sphincter. 881 91

1. Frequency-dependent nonadrenergic, noncholinergic (NANC) relaxant responses were induced by transmural stimulation of whole tracheal tube preparations. 2. Responses at lower frequencies (< or = 10 Hz) were abolished by L-nitroarginine methyl ester (L-NAME). 3. Responses at higher frequencies (> or = 20 Hz) consisted of a rapid, short-lasting relaxation, followed by a slow, long-lasting relaxation. The former and the latter were reduced by L-NAME and alpha-chymotrypsin, respectively. 4. alpha-Chymotrypsin had little effect on the magnitude of NANC responses, but reduced the duration of responses at higher frequencies (> or = 20 Hz). 5. The results suggest that NANC relaxation of guinea pig trachea may be mediated primarily by nitric oxide, with and without concomitant release of vasoactive intestinal peptide or related peptides, and nitric oxide may act as predominant mediator providing the magnitude of relaxant response.
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PMID:Role of nitric oxide in nonadrenergic, noncholinergic relaxation of whole tracheal tube preparations isolated from guinea pigs. 884 85

The mediators of nonadrenergic, noncholinergic (NANC) relaxation in the longitudinal muscle of rat jejunum were studied in vitro. Electrical field stimulation (EFS) of segments of rat jejunum induced a rapid transient relaxation followed by a subsequent contraction in the presence of atropine and guanethidine. NG-Nitro-L-arginine (L-NOARG, 10 microM) inhibited the EFS-induced NANC relaxation by about 25%, and L-arginine (1 mM) completely reversed this inhibition. Exogenously added nitric oxide (0.1-10 microM) induced relaxation of the segment. Treatment of the segment with alpha-chymotrypsin resulted in about 50% inhibition of the EFS-induced relaxation. Several peptide candidates for the mediator of NANC relaxation were examined by using selective antagonists of their receptors or by a receptor-desensitization method. Results indicated that vasoactive intestinal peptide, pituitary adenylate cyclase activating peptide, peptide histidine isoleucine, atrial natriuretic peptide and neurotensin are not associated with NANC relaxation of the segments. On the other hand, apamin at 1 microM inhibited the EFS-induced relaxation by 74%. Inhibitory effects of L-NOARG and, apamin or alpha-chymotrypsin treatment on the EFS-induced relaxation were additive and almost complete. Exogenous nitric oxide-induced relaxation was not affected by apamin. Inhibitory junction potentials (i.j.p.'s) were recorded from longitudinal muscle cells of rat jejunum. Apamin at 200 nM abolished i.j.p.'s induced by two pulses of EFS. These results suggest that NANC relaxation in longitudinal muscle of rat jejunum involves two independent components: one is a nitric oxide-mediated minor component, and the other is an unknown substance-mediated apamin-sensitive major component that is inhibited by alpha-chymotrypsin treatment.
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PMID:Nonadrenergic, noncholinergic relaxation in longitudinal muscle of rat jejunum. 907 49

The effects of capsaicin and neuropeptides were examined in equine tracheal smooth muscle (TSM). Neither capsaicin nor substance P (SP) contracted TSM. Capsaicin (100 microM) elicited relaxation in TSM contracted with methacholine. This relaxation was not mimicked by SP or calcitonin gene-related peptide (CGRP). Relaxation was not attenuated by removal of the epithelium or by pretreatment of tissue with meclofenamate or the nitric oxide (NO) synthase inhibitor NG-nitro-L-arginine. Previous exposure of TSM to capsaicin did not eliminate the relaxation responses to subsequent capsaicin. Although vasoactive intestinal peptide (VIP) elicited marked relaxation that was attenuated by alpha-chymotrypsin, alpha-chymotrypsin did not affect the capsaicin-induced relaxation. Capsaicin-induced relaxation was abolished by charybdotoxin, a blocker of large-conductance Ca(2+)-activated K+ channels. These results indicate that capsaicin-induced equine TSM relaxation is not mediated either by neuropeptides such as SP or CGRP released from capsaicin-sensitive sensory nerves or by prostanoids, NO, or VIP. Relaxation is due to the effect of capsaicin on large-conductance Ca(2+)-activated K+ channels. The peptidergic nerves play no important role in the regulation of TSM tone in horse airways.
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PMID:Mechanism of capsaicin-induced relaxation in equine tracheal smooth muscle. 937 26

Using Low Shear-30 Rheometer, we studied the effects of vasoactive intestinal peptide, alpha-chymotrypsin, pancreozymin, lipase, phospholipase A2 and collagenase on the viscoelasticity properties of RBC suspension. The result showed that these drugs could increase the values of eta 0.512 and A. I. It suggests that these drugs could increase the degree of RBC aggregation. Among the drugs and concentrations, there is no significant difference.
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PMID:[Effects of vasoactive intestinal peptide, alpha-chymotrypsin, pancreozymin, lipase, phospholipase A2 and collagenase on the viscoelasticity properties of red blood cell suspension]. 981 61

Dopexamine is a synthetic catecholamine used for the management of low-cardiac-output states. The purpose of this study was to characterize some of the mechanisms underlying dopexamine-mediated relaxation in the guinea pig pulmonary artery (PA) in vitro. Dopexamine (EC50, 1.2 microM; Rmax, 100%), like dobutamine (EC50, 1.4 microM, Rmax, 93.3%), prostacyclin (PGI2; EC50, 37 nM; Rmax, 96.2%), sodium nitroprusside (EC50, 370 pM; Rmax, 96.9%), forskolin (EC50, 47 pM: Rmax, 98.6%), and SKF 38393 (EC50, 120 nM; Rmax, 100%), caused graded relaxation in rings of PA precontracted by phenylephrine. The dopexamine vasorelaxation was antagonized by propranolol (1 microM), SCH 23390 (100 nM, a D1-dopamine antagonist), sulpiride (1 microM), glibenclamide (30 microM), tetraethylammonium (3 mM), apamin (100 nM), charybdotoxin (100 nM), SQ 22536 (10 microM, an adenylyl cyclase inhibitor), KT 5720 (10 microM, a protein kinase A inhibitor) and by calcitonin gene-related peptide (CGRP) or vasoactive intestinal peptide (VIP)-receptor antagonists (both 100 nM), as well as by chymotrypsin (1 U/ml). Neither the prior incubation of N(G)-nitro-L-arginine (100 pM), indomethacin (1 microM), nor removal of the vascular endothelium interfered with dopexamine vasorelaxation response in PA. Thus dopexamine relaxation in PA is mediated by activation of beta-adrenoceptors and dopamine receptors, and by the opening of both low- and high-conductance Ca2+-activated K+ channels, partially through adenosine triphosphate (ATP)-sensitive K+ channels. In addition, dopexamine-induced relaxation in PA seems to involve the release of peptides such as VIP and CGRP, an effect mediated by a cyclic adenosine monophosphate (cAMP)-dependent mechanism.
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PMID:Characterization of the mechanism involved in the relaxant response of dopexamine in the guinea pig pulmonary artery in vitro. 989 Apr 1

The P(2)-purinoceptor antagonist, suramin, was used to investigate the possible involvement of adenosine 5'-triphosphate (ATP) in the inhibitory non-adrenergic non-cholinergic (NANC) innervation of the rat gastric fundus. ATP (1-30 microM) produced biphasic responses consisting of concentration-dependent relaxations followed by concentration-dependent contractions. Suramin (200 microM) significantly reduced relaxations and abolished contractions to ATP. Under NANC conditions, electrical field stimulation (EFS) induced frequency-dependent relaxations. Suramin (200 microM) and the peptidase alpha-chymotrypsin (1 u ml(-1)) had the same effects on EFS-induced relaxations: their duration was reduced, but their magnitude was unaffected. Cumulative relaxations to vasoactive intestinal peptide (VIP; 0.1-100 nM), and to the VIP analogue pituitary adenylate cyclase activating peptide 1-27 (PACAP; 0.2-100 nM), were almost completely abolished by alpha-chymotrypsin (1 u ml(-1)), and were inhibited by suramin (3-200 microM) in an apparently competitive manner. Schild plot analysis indicated that suramin had pA(2) values of 5.1+/-0.2 (Hill slope=0.9+/-0.2) and 5.6+/-0.1 (Hill slope=1.0+/-0.1), against VIP and PACAP, respectively. Concentration-dependent relaxations to nitric oxide (1-30 microM) and cumulative relaxations to isoprenaline (0.1-300 nM) were not affected by suramin (200 microM). No conclusions can be made regarding the possible involvement of ATP in EFS-induced NANC relaxations. The results suggest that suramin acts as a competitive antagonist at VIP receptors in the rat gastric fundus.
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PMID:The P(2)-purinoceptor antagonist suramin is a competitive antagonist at vasoactive intestinal peptide receptors in the rat gastric fundus. 1092 68

1. The present study was undertaken to investigate the influence of the airway epithelium on the release of acetylcholine (ACh) from parasympathetic nerves of the rat trachea. Epithelium-intact and epithelium-denuded preparations of rat trachea were incubated with [3H]-choline to incorporate [3H]-ACh into the cholinergic transmitter stores. Release of radiolabelled transmitter ACh was evoked by electrical field stimulation (60 s trains of 1 ms pulses, 5 Hz, 15 V). 2. Field stimulation both of epithelium-intact and epithelium-denuded radiolabelled tracheal preparations evoked an increase in the efflux of radioactivity; however, the mean stimulation-induced (S-I) efflux from epithelium-denuded preparations (2932 +/- 190 d.p.m., n = 9) was approximately 60% of that from epithelium-intact preparations (4802 +/- 820 d.p.m., n = 11). We have shown previously that, in epithelium-intact (but not epithelium-denuded) tracheal preparations, a substantial proportion of the S-I efflux is resistant to tetrodotoxin (1 microM) and to the removal of extracellular Ca2+, indicating that much of the S-I efflux is not caused by exocytotic release of neuronal [3H]-ACh. In epithelium-denuded tracheal preparations, superfused individually, phosphorylcholine (1 and 100 microM) did not alter S-I efflux. In epithelium-intact tracheal preparations, both in the absence and in the presence of atropine (1 microM), neither N(G)-nitro-L-arginine (100 microM), superoxide dismutase (100 units ml(-1)), indomethacin (10 microM), capsaicin (30 microM) nor alpha-chymotrypsin (1 unit ml(-1)) altered S-I efflux. 3. Experiments were also performed using two tracheal preparations superfused in series. When unlabelled epithelium-intact preparations were present in the upper chamber (superfused first), the S-I efflux from radiolabelled epithelium-denuded preparations in the lower chamber (superfused second) did not differ significantly from radiolabelled epithelium-denuded preparations superfused individually. Moreover, there was no significant difference in the S-I efflux from radiolabelled epithelium-denuded preparations in the lower chamber between experiments in which the upper chamber contained epithelium-intact or epithelium-denuded preparations. 4. Field stimulation of epithelium-intact tracheal preparations in the upper chamber with 90, 120 and 300-s periods (trains of 1 ms pulses, 5 Hz, 15 V) did not significantly alter the S-I efflux from radiolabelled epithelium-denuded tracheal preparations in the lower chamber. 5. When introduced into the upper (unlabelled epithelium-intact) and subsequently allowed to superfuse the lower (radiolabelled epithelium-denuded) tracheal preparations, the stable cholinomimetic carbachol (3 microM) markedly reduced the S-I efflux whereas ACh (0.1 and 1 microM) had no significant effect. However, in the presence of the anti-cholinesterase neostigmine (1 microM), ACh (1 microM) significantly reduced S-I efflux, indicating that ACh is subject to rapid hydrolysis by cholinesterase enzymes. When atropine (10 microM) was only exposed to radiolabelled epithelium-denuded preparations in the lower chamber, the inhibitory effects of ACh (1 microM) and carbachol (3 microM) on S-I efflux were prevented. 6. In conclusion, the findings of the present study do not support the notion that the airway epithelium exerts an inhibitory influence on ACh release from parasympathetic nerves of the rat trachea. Alternatively, if epithelium-dependent modulation of cholinergic transmission does occur in the rat trachea, then the mechanism does not appear to involve phosphorylcholine, nitric oxide, superoxide radicals, cyclo-oxygenase products of arachadonic acid, capsaicin-sensitive neuropeptides or vasoactive intestinal peptide. Moreover, the inhibitory effect of carbachol and ACh on transmitter ACh release in the rat trachea appears to be due solely to activation of prejunctional inhibitory muscarinic cholinoceptors on parasympathetic nerves and does not involve the liberation of a putative epithelium-derived inhibitory factor.
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PMID:Influence of the epithelium on acetylcholine release from parasympathetic nerves of the rat trachea. 1126 Mar 62

Electrical field stimulation (EFS)-induced non-adrenergic non-cholinergic (NANC) relaxation responses in the rabbit vaginal wall were investigated. These NANC responses were partially inhibited with the nitric oxide synthase (NOS) inhibitors N(G)-nitro-L-arginine methyl ester (L-NAME; 500 microM), N(G)-nitro-L-arginine (300 microM) or N-iminoethyl-L-ornithine (500 microM) or the selective soluble guanylate cyclase inhibitor 1H-[1,2,4]oxadiazolo[4,3,-a]quinoxalin-1-one (ODQ, 10 microM). Application of L-NAME and ODQ concomitantly did not increase the degree of inhibition. L-NAME or ODQ were observed to be more effective at low frequencies. The resistant part of the responses was more pronounced at higher frequencies and was completely inhibited by tetrodotoxin (1 microM). Exogenous application of the peptides vasoactive intestinal peptide (VIP), pituitary adenylate cyclase activating peptide (PACAP-27 and PACAP-38), peptide histidine methionine (PHM), peptide histidine valine (PHV), helospectin-I or -II induced a relaxation response. Calcitonin gene-related peptide or substance P did not cause any relaxation. The peptidase alpha-chymotrypsin (type II; 2 units ml(-1)) did not affect non-nitrergic NANC responses, although it did inhibit relaxation responses elicited by exogenous VIP, PACAP-27, PACAP-38, PHM, PHV, helospectin-I or -II. K(+) channel inhibitors apamin (1 microM) or charybdotoxin (100 nM) when used alone or in conjunction did not affect non-nitrergic NANC responses. The non-nitrergic NANC responses were not associated with any increase in intracellular cyclic adenosine-3', 5'-monophosphate (cyclic AMP) or cyclic guanosine-3', 5'-monophosphate (cyclic GMP) concentrations. The peptide-induced relaxations were all associated with increases in cyclic AMP concentrations. These results suggest that a neuronal factor elicits non-nitrergic NANC responses in the rabbit vaginal wall. The identity of this factor remains to be established.
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PMID:Characterization of the non-nitrergic NANC relaxation responses in the rabbit vaginal wall. 1181 90

The involvement of adenosine triphosphate (ATP) and carbon monoxide (CO) in the non-nitrergic nonpeptidergic component of high-frequency electrical field stimulation (EFS)-induced nonadrenergic noncholinergic (NANC) relaxation of longitudinal muscle strips from the rat gastric fundus was investigated. Under NANC conditions (1 microM atropine + 5 microM guanethidine), N(G)-nitro-L-arginine methyl ester (L-NAME, 1 mM) slightly reduced the amplitude, but did not affect the area under the curve (AUC) of EFS (13 Hz, 2 min)-induced relaxation of 9,11-dideoxy-9alpha,11alpha-methanoepoxy prostaglandin F(2alpha) (U46619, 0.1 microM)-precontracted strips. With L-NAME (1 mM) plus alpha-chymotrypsin (1 U ml(-1)), the amplitude and the AUC of relaxation were reduced to approximately two-third and one-third of controls, respectively. Pyridoxal-phosphate-6-azophenyl-2',4'-disulphonic acid (100 microM), apamin (0.3 microM), desensitization to ATP, suramin (100 microM), zinc protoporphyrin IX (300 microM) or ferrous haemoglobin (100 microM) did not inhibit the component of relaxation resistant to L-NAME plus alpha-chymotrypsin. L-NAME (1 mM) plus anti-vasoactive intestinal peptide (VIP) serum (1 : 100) reduced the amplitude and the AUC of relaxation to a similar extent as L-NAME (1 mM) plus alpha-chymotrypsin (1 U ml(-1)). Adding apamin (0.1 microM) to L-NAME (1 mM) plus anti-VIP serum (1 : 100) further reduced the amplitude and the AUC of relaxation. These findings suggest that the non-nitrergic nonpeptidergic component of NANC relaxation of the rat gastric fundus induced by high-frequency stimulation is mediated by a neurotransmitter that acts through apamin-sensitive mechanisms, that is neither ATP nor CO.
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PMID:Evidence for an apamin-sensitive, but not purinergic, component in the nonadrenergic noncholinergic relaxation of the rat gastric fundus. 1550 56

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