Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Free cells were obtained by sequential incubations of pig gastric mucosa with pronase and collagenase. Approximately 10-15% of the cell population represented parietal cells. Accumulation of aminopyrine (AP) in the acid compartments of parietal cells was used as an index of their acid production. Histamine, carbachol and pentagastrin each independently stimulated aminopyrine accumulation. The initial rate of aminopyrine accumulation, observed after addition of 10(-4) M carbachol or 10(-6) M pentagastrin, were 32% and 10%, respectively, of that observed with 10(-4) M histamine. Steady-state aminopyrine accumulation in the presence of 10(-4) M histamine, 10(-4) M carbachol or 10(-6) M pentagastrin were 6.2 +/- 3.3, 2.6 +/- 0.6 and 3.0 +/- 1.5 pmol AP per 10(4) parietal cells, respectively (mean +/- SD, n = 5). The EC50 value for histamine was 3.4 +/- 1.4 X 10(-7) M, and for pentagastrin 5.9 +/- 4.2 X 10(-8) M (mean +/- SD, n = 5). The dose-response curve for carbachol was biphasic. A plateau was reached at 10(-5)-10(-4) M carbachol, and for this phase an apparent EC50 of 2.1 +/- 1.4 X 10(-6) M carbachol was calculated (mean +/- SD, n = 5). A further increase to 10(-3) M carbachol increased the aminopyrine accumulation. Atropine (10(-6) M) inhibited the response to concentrations up to 10(-4) M carbachol, but was without effect on the histamine- and pentagastrin-stimulation. The H2-receptor antagonist, cimetidine, right-shifted the dose--response curve for histamine. Also, the pentagastrin-stimulated aminopyrine accumulation was inhibited by cimetidine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of acid formation by histamine, carbachol and pentagastrin in isolated pig parietal cells. 242 35

Cells were isolated by collagenase digestion of chicken adrenal glands. Catecholamine secretion could be stimulated by acetylcholine, carbamylcholine, potassium or veratridine. Methacholine, muscarine and oxotremorine were also effective secretagogues whereas nicotine was not. Secretion evoked by acetylcholine was blocked by low concentrations of atropine but was relatively insensitive to hexamethonium. Atropine-sensitive secretion required both external sodium and calcium, was unaffected by tetrodotoxin, blocked by methoxy verapamil and nifedipine, and potentiated by BAY-K-8644. These data suggest that muscarinic activation of these cells facilitates tetrodotoxin insensitive depolarization, thereby opening conventional voltage-sensitive calcium channels. The mechanism by which calcium activates catecholamine secretion was investigated in cells that had been made permeable by exposure to brief intense electric fields. Catecholamine release required Mg-adenosine 5' triphosphate, was half-maximally activated by 1 microM Ca2+ and could be inhibited by high concentrations of Mg2+. At low Ca2+ concentrations, release was potentiated by 12-O-tetradecanoylphorbol 13-acetate, dioctanoylglycerol, guanosine 5'-O-(3-thiotriphosphate) and 5'-guanylylimidodiphosphate, all of which increased the apparent affinity of exocytosis for Ca2+.
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PMID:Observations on the muscarinic activation of catecholamine secretion in the chicken adrenal. 243 52

Intrarenal administration of cholinergic agents produces diuresis. However, neither cholinergic innervation or specific cholinergic receptors have been shown to be present in the kidney. Recently, we have demonstrated that carbachol, a cholinergic agent, stimulates phosphoinositide hydrolysis in the inner medullary collecting duct (IMCD) cells. The effect was blocked by atropine (a cholinergic antagonist), suggesting that phosphoinositide hydrolysis occurs through the interaction of carbachol with specific cholinergic receptors in these cells. Therefore, we examined the cholinergic receptors in IMCD cells by measurement of radioligand binding of a cholinergic receptor antagonist, I-quinuclidinyl (phenyl-4-3H)benzilate([3H]QNB). The IMCD cells were prepared from rabbit kidneys by incubating the inner medullary slices with collagenase and treating the isolated cells with hypotonic solution to lyse cells other than IMCD cells. Binding of [3H]QNB to IMCD cells was measured at 37 degrees C for 60 min in the absence (total binding) and the presence (nonspecific binding) of 100 microM atropine (a muscarinic receptor antagonist). The specific binding (the difference between total and nonspecific binding) of [3H]QNB to IMCD cells was saturable with a Bmax (maximum binding sites) of 27.5 fmol/mg of protein and Kd (dissociation constant) of 0.27 nM. Atropine, but not hexamethonium (a nicotinic antagonist), was able to displace [3H]QNB from IMCD cells with a Ki of 0.1 microM. It is, therefore, concluded that specific high affinity muscarinic receptors are present in IMCD cells. These receptors may play a role in producing the pharmacologic actions of cholinergic agents on the kidney.
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PMID:Cholinergic receptors in renal medullary collecting duct cells. 253 24

Regulation of somatostatin (SS) secretion was studied in an in vitro system using collagenase-dispersed cells from fetal rat hypothalamus maintained in long term monolayer culture. Cultured cells exhibit a measurable basal secretion of immunoactive SS (SSLI) which can be augmented by carbachol, acetylcholine, or oxotremorine. The EC50 for carbachol is about 1 microM. Atropine, but not hexamethonium, antagonizes the action of cholinergic agonists. Cobalt or tetrodotoxin pretreatment diminishes basal secretion and eliminates the response to carbachol. Serotonin, several serotonin agonists, and gamma-aminobutyric acid (GABA) suppress carbachol-induced secretion. The GABA blockers bicuculline or picrotoxinin reverse the effect of added GABA and by themselves also augment SSLI secretion. Picrotin is inactive. The direct response to either bicuiculline or picrotoxinin is prevented by cobalt or tetrodotoxin treatment. These observations are consistent with the presence of a muscarinic cholinergic receptor which acts by a mechanism depending on an action potential and calcium influx to enhance the release of SSLI from neurosecretory cells. The data also support the conclusion that GABAergic transmission occurs within the cultures to tonically inhibit SSLI secretion. GABAergic, cholinergic, and serotoninergic systems may thus interact at the level of the hypothalamus to modulate SS secretion in vivo and thereby influence anterior pituitary release of GH and TSH.
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PMID:Muscarinic cholinergic stimulation of somatostatin secretion from long term dispersed cell cultures of fetal rat hypothalamus: inhibition by gamma-aminobutyric acid and serotonin. 612 32

Smooth muscle cells from the guinea pig gastric fundus were isolated by successive collagenase digestions. Tritiated quinuclidinyl benzilate [( 3H]QNB) was used to study the binding characteristics of the muscarinic cholinergic receptors on these cells. Each cell bound 8.3 X 10(-19) mol of QNB, and a concentration of QNB of 0.19 nM was required to label one-half of the binding sites. This suggests a concentration of about 500,000 muscarinic cholinergic receptors per smooth muscle cell. The muscarinic cholinergic receptor antagonists atropine and scopolamine inhibited QNB binding with a 50% inhibiting concentration (IC50) in the nanomolar range, whereas the agonists acetylcholine (ACh), oxotremorine, and carbamylcholine had IC50S in the micromolar range. Hill coefficients (nH) for antagonists approached unity, but agonists displayed fractional nH. Exposure of cells to cholinergic muscarinic agonists resulted in dose-dependent decreases in cell length. The concentration of agonist required to induce half-maximal contractions (ED50) was 8.3 X 10(-12) M for ACh and 6.3 X 10(-13) M for oxotremorine. Atropine (10(-9) M) decreased the sensitivity to ACh, increasing the ED50 for ACh-induced contractions to 1.2 X 10(-10) M. These results suggest the existence of muscarinic receptor heterogeneity for cholinergic agonists but not for antagonists.
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PMID:Contraction and [3H]QNB binding in collagenase isolated fundic smooth muscle cells. 688 50

The role of calcium gating in cholinergic stimulation of the function of parietal cells was studied using cells isolated from canine fundic mucosa by treatment with collagenase and EDTA and enriched by velocity separation in an elutriator rotor. Monitoring the accumulation of [14C[ aminopyrine as an index of parietal cell response, stimulation by carbachol, but not by histamine, was highly dependent upon the concentration of extracellular calcium. Incubation of parietal cells in 0-.1 mM calcium, rather than the usual 1.8 mM concentration, reduced the response to 100 microM carbachol by 92 +/- 2%, whereas histamine stimulation was impaired by 28 +/- 5%. A similar reduction in extracellular calcium suppressed the response to gastrin (100 nM) by 67 +/- 7%. The impairment of cholinergic stimulation found at low extracellular calcium concentrations was rapidly reversed with the readdition of calcium. Lanthanum, which blocks calcium movement across membranes, caused a similar pattern of effects on secretagogue stimulation of aminopyrine accumulation, with 100 microM lanthanum suppressing carbachol stimulation by 83 +/- 2%. This concentration of lanthanum suppressed gastrin stimulation by 40 +/- 7% and histamine stimulation by only 12 +/- 9%. Carbachol, but not histamine nor gastrin, stimulated 45Ca++ uptake. The magnitude of carbachol-stimulated calcium uptake correlated with the parietal cell content of the fractions examined (r = 0.88), and was dose responsive over carbachol concentrations from 1 microM to 1 mM. Atropine (100 nM) caused surmountable inhibition, and these effects of carbachol and atropine on calcium uptake correlated with their effects on oxygen consumption (r = 0.93) and [14C]-aminopyrine accumulation (r = 0.90). Cells preloaded with 45Ca++ lost cellular calcium in a time-dependent fashion; however, this rate of egress was not accelerated by treatment with histamine, gastrin, or carbachol, thus failing to implicate mobilization of intracellular calcium as primary mechanism for activation of parietal cell function. These data indicate a close link between stimulation of parietal cell function and enhancement of calcium influx by cholinergic agents.
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PMID:Extracellular calcium and cholinergic stimulation of isolated canine parietal cells. 725 63

We investigated the effects of epithelial cells on excitatory cholinergic neurotransmission in dog trachea, to shed more light on the role of airway epithelial cells in regulating airway responsiveness. Airway epithelial cells were prepared by an enzymatic dissociation of the tracheal mucosa using protease-free collagenase. Tracheal smooth muscle contractions evoked by electrical field stimulation (EFS) or acetylcholine (ACh) were measured before and after the application of epithelial cells. Isolated and dispersed epithelial cells (3 x 10(5) cells/ml) suppressed the amplitude of the twitch-like contractions evoked by EFS in the combined presence of guanethidine sulfate (10(-6) M) and indomethacin (10(-5) M). In contrast, epithelial cells did not affect the contraction evoked by exogenously applied ACh. Atropine (10(-6) M) or tetrodotoxin (10(-7) M) abolished the contraction evoked by electrical field stimulation. These findings indicate that airway epithelial cells inhibit the excitatory neurotransmission of the vagus nerve, presumably by suppressing the release of ACh. Airway epithelial cells may therefore play an important role in regulating the response of smooth muscle.
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PMID:Airway epithelial cells modulate cholinergic neurotransmission in dog trachea. 802 92

Isolated muscle bags from the parasitic nematode Ascaris suum were prepared by collagenase treatment and dissection. Single bags were mounted in a V-shaped plastic pipette for voltage clamp application and intra- and extracellular perfusion. With 'physiological' intra- and extracellular solutions, depolarizing voltage steps from near the normal resting membrane potential, -40 mV, produced in leak-corrected currents, a slowly activating outward current at potentials more positive than -20mV. At the end of the depolarizing pulse there was a slow inward tail current with a reversal potential near -20mV. Hyperpolarizing voltage steps produced an outward current relaxation and an outward tail current with the same reversal potential. The observations can be explained by the presence in the bag of a non-selective cation channel current, Ibcat, that activates spontaneously at the holding potential; depolarization increases opening of the channel and hyperpolarization decreases opening. Bath-applied acetylcholine in concentrations greater than 10(-7) M produced an increase in the amplitude of Ibcat. The effect of acetylcholine was not antagonized or prevented by 100 microM tubocurarine, suggesting the presence of a non-nicotinic acetylcholine receptor. Atropine (100 microM) had no detectable influence on the effect of acetylcholine but the FMRFamide peptide, PF1, in concentrations > 1 microM, reduced the amplitude of Ibcat. Ibcat was maintained when Cs+ was used to replace intra- and extracellular cations, showing that the channels were permeable to Cs+. It is concluded that the bag membrane possesses a slow voltage-activated non-selective cation channel current, Ibcat. The effect of acetylcholine in the presence of nicotinic antagonist indicates the presence of non-nicotinic acetylcholine receptors on the bag membrane. The effect of PF1 indicated the presence of PF1 receptors on the bag membrane.
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PMID:Effects of acetylcholine on a slow voltage-activated non-selective cation current mediated by non-nicotinic receptors on isolated Ascaris muscle bags. 896 Jun 98

We previously reported a simple method of acutely preparing dissociated smooth muscle cells from urinary bladder tissue, but the feasibility of this method has not been well ascertained. In the present study, we assessed whether this method is applicable for measuring muscarinic receptor function in intestinal smooth muscle cells. Single smooth muscle cells were prepared from the longitudinal muscle tissue of guinea pig colon by the enzymatic dissociation with papain and hyaluronidase, followed by collagenase digestion. Muscarinic responses in the isolated smooth muscle cells were measured by intracellular Ca(2+) mobilization and extracellular acidification through Fura-2 fluorometry and Cytosensor microphysiometry, respectively. A single, viable population of colon longitudinal smooth muscle cells (approximately 6 x 10(6) cells/animal) was obtained. In these cells, carbachol (muscarinic agonist) induced Ca(2+) mobilization and extracellular acidification over the concentration range similar to that previously reported to produce contraction of the intact colon muscle strips. Atropine (nonselective muscarinic antagonist) and 4-diphenylacetoxy-N-methylpiperidine (4-DAMP, M(3)-selective antagonist) inhibited the Ca(2+) mobilization with potencies approximately 3 log units greater than that for methoctramine (M(2)-selective antagonist). For extracellular acidification, the potency differences between these antagonists was approximately 2 log units. In addition, the carbachol-induced extracellular acidification was inhibited by 5-[N-ethyl-N-isopropyl]-amiloride, a selective inhibitor of the Na(+)/H(+) exchanger. These findings indicate that in isolated colonic smooth muscle cells, M(3) receptors are predominantly involved in Ca(2+) mobilization, while a mixed population of M(2) and M(3) receptors seems to contribute to extracellular acidification. Our results further suggest the role of the Na(+)/H(+) exchanger in muscarinic-mediated extracellular acidification. Consequently, our method produces viable isolated colonic smooth muscle cells that display physiologically appropriate responses to muscarinic receptor activation, and the method may be applicable for several types of nonvascular smooth muscle tissues.
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PMID:A method for measurement of muscarinic receptor-mediated responses in dissociated single colon longitudinal smooth muscle cells. 1175 83