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

The rabbit has been a useful model for in vivo studies of the pharmacologic control of lacrimal gland fluid secretion. However, by contrast with rodent exorbital lacrimal glands, the rabbit lacrimal gland has not been subjected to detailed cellular, subcellular, or biochemical analyses. Procedures were developed to isolate rabbit lacrimal acini by collagenase digestion and mechanical dispersion. The preparations exhibited good morphology, and trypan blue exclusion rates generally exceeded 90%. The isolated acini responded to carbachol by releasing protein and increasing Na+ unidirectional influx rates. The presence of muscarinic cholinergic and beta-adrenergic receptors was indicated by specific binding of the muscarinic cholinergic antagonist, 3H-N-methylscopolamine (3H-NMS; dissociation constant, Kd, 0.55 nmol/l), and the beta-adrenergic antagonist, 3H-CGP12177 (Kd, 0.34 nmol/l). The maximal binding values measured in crude membrane preparations were 79 fmol/mg for 3H-NMS and 40 fmol/mg for 3H-CGP12177. Subcellular fractionation analyses showed various membrane populations, including a series of Golgi-derived populations admixed with a major endoplasmic reticulum-derived population, a population that may represent the basal-lateral plasma membranes, and a series of populations with characteristics suggesting they are involved in the assembly or recycling of basal-lateral membrane constituents. The authors believe the ability to isolate and analyze acinar preparations from the rabbit lacrimal gland will facilitate various studies of acinar cell biochemistry and physiology that would be impractical with the relatively smaller amounts of material that can be obtained from rat or mouse exorbital lacrimal glands.
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PMID:Isolation and subcellular fractionation analysis of acini from rabbit lacrimal glands. 132 95

Smooth muscle cells from the gastric antrum of the rabbit were isolated using collagenase and pronase. We examined the characteristics of muscarinic receptors that control contraction of the muscle cell: kinetics, stoichiometry and specificity of both contractile response to muscarinic agents and binding of labeled N-methyl-scopolamine. Cells contracted in the presence of muscarinic agents after a short time (30 sec) while binding of (3H)-NMS reached a plateau after 10 min exposure. Specific binding was saturable and Scatchard analysis revealed a single class of high-affinity binding sites (Kd: 0.5 nM). Oxotremorine was the most potent agonist with an ED50 of 0.6 pM; acetylcholine and carbachol were 10 times less potent. Muscarinic antagonists competed with (3H)-NMS for binding with IC50 values in the same range (nanomolar or less) than those obtained for inhibition of acetylcholine-induced contractions. Pirenzepine antagonized contractile effect of muscarinic agonists with EC50 in a micromolar range. Intracellular levels of cyclic AMP were lowered by muscarinic agonists. Monoclonal anti-muscarinic receptor antibodies M-35 displayed agonist-like activities triggering contraction and lowering cyclic AMP levels of the cells. However, although the antagonist inhibits M-35-induced contractions and cAMP decrease, M-35 had no effect on binding of the antagonist to the muscarinic receptor. These data revealed the presence of an M2-muscarinic receptor subtype involved in the contractile response of the isolated smooth muscle cell.
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PMID:Muscarinic receptors in isolated smooth muscle cells from gastric antrum. 283 78

Muscarinic receptors are involved in the control of gastric acid secretion. The characteristics of (3H)-N-methyl-scopolamine [(3H)-NMS] binding to isolated cells from rabbit fundic gastric mucosa and inhibition of this binding by muscarinic agonists, antagonists and other pharmacological agents known to regulate acid secretion are reported. Specific binding for (3H)-NMS was described: antagonists interact with high affinity sites (KD = 0.5 nM) whereas binding curves for agonists clearly deviated from the simple mass action isotherm with a flattening of the curve suggesting the presence of more than one class of sites. The low affinity sites for agonists are in the micromolar range. Pirenzine, a gastroselective antimuscarinic compound, known to differentiate between M1 and M2 sites, inhibited (3H)-NMS binding with an IC50 of 0.05 microM. On the same gastric cell population, muscarinic agonist carbachol stimulated (14C)-aminopyrine accumulation in a dose-dependent manner with an ED-50 of 10 microM, value close to that needed to 50% inhibit (3H)-NMS binding. This stimulation was competitively inhibited by muscarinic antagonists and pA2-values for atropine, QNB and pirenzepine, calculated from linear Schild plots, were in the following order: 9.2 for atropine, 8.6 for QNB and 7.0 for pirenzepine. In conclusion, fundic gastric mucosal cells from rabbit, isolated with collagenase and EDTA, contained specific muscarinic receptors coupled to the acid secretory mechanism and pirenzepine interact with these receptors with an intermediate affinity suggesting the presence of functional M2-sites.
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PMID:Muscarinic receptors in isolated gastric fundic mucosal cells. Binding-activity relationships. 383 98