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)

The kinetics of AChE solubilization from intact motor endplates of mouse diaphragm, by collagenase, papain and hyaluronidase, was studied in parallel with the ultrastructural localization of AChE in treated neuromuscular junctions. Hyaluronidase did not solubilize more AChE from isolated motor endplate regions than Ringer's solution itself. Residual AChE activity could be demonstrated histochemically in motor endplates even after the plateau of solubilization by collagenase or papain was reached. Less than 35% of junctional AChE is left after collagenase, and less than 20% after papain treatment, as estimated by the percentage of AChE activity left in the isolated endplate region of the diaphragm after protease treatment. Cytochemically, both proteases had a similar effect on postsynaptic AChE. Residual AChE activity was distributed randomly, adhering to the sarcolemma of junctional clefts. Presynaptic AChE localized in the gap between axon terminal and Schwann cell appears to be resistant to collagenase but not to papain treatment. The mode of AChE attachment or the composition of the intercellular material in this gap may differ from that of the primary and secondary clefts.
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PMID:Attachment of acetylcholinesterase to structures of the motor endplate. 22 95

Addition of estradiol-17beta in vitro to suspensions of isolated endometrial cells resulted in significant effects on glucose, water and electrolyte metabolism. Cells were prepared from uterine tissues of ovariectomized rats. In part, the procedures involved incubation with collagenase in Ca2+-, Mg2+-free, phosphate-buffered mammalian Ringer's solution, followed by restoration of divalent cations before gentle scraping of the endometrium from the underlying smoothmuscle. Cells were then disaggregated, washed, separated from coarse and fine debris, and incubated in an enriched medium for 2 h before the start of all experiments. Cellular integrity was established by measurement of electrolyte contents and by dye exclusion methods. Substantial production of 14CO2 from glucose-U-14C by the cell suspensions provided further evidence of cell viability. Estradiol-17beta, 10-9M, elicited significant increments in sodium and water contents within 2 h. Addition of estradiol-17beta, but not the alpha-epimer, also resulted in a significant increase in the yield of 14CO2 as early as 1.5 h, peaking at 2 h. The responses were dose-dependent between 10-10M through 10-8M. The stimulatory effect of estradiol-17beta at 10-9M was abolished in the presence of 3 times 10-6M cortisol or by cellular homogenization. Epithelial cells isolated from rat urinary bladder responded significantly to 6 times 10-9M aldosterone but not to estradiol-17beta, demonstrating specificity of the target site. These data lend further support to the suggestion that a primary action of estrogen in its target cell involves specific changes in the ionic and biochemical profile of the cytoplasm which may ultimately be communicated to the nucleus.
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PMID:Steroid hormone-responsive, isolated endometrial cells. 112 Apr 83

The electric organs of two species of skate have been examined morphologically, physiologically and biochemically. They can be easily dissociated into innervated or denervated component electrocytes by a Torpedo Ringer's solution containing 1% collagenase. Collagenase treatment did not, however, separate the Schwann cell cover capping the synaptosomes. Isolated electrocytes generate normal MEPP frequencies and show evoked responses for two days in Torpedo Ringer's. The nerve terminals retain excitability and transmitter release properties up to the time of separation. Since isolated terminals and denervated electrocytes show normal ultrastructural characteristics for up to 12 h, the skate electric organ provides several preparations which are not attainable with Torpedo tissue. Acetylcholine (ACh) content of supernatant fractions containing the synaptosomes was comparable to that found in Torpedo (sps.). Collagenase specifically eliminates the basal lamina associated with the synaptic junctional region. Neuronal cell death and synaptic terminal degeneration were also noted in the adult organs of both species. The skate electric organ is ideally suited for the study of cholinergic development and transmission.
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PMID:Morphological, physiological and biochemical observations on skate electric organ. 216 Nov 87

The early histological, biochemical, and biomechanical characteristics of the anterior cruciate ligament (ACL) were determined in a rabbit model of acute hemarthrosis. The ACLs of 19 rabbits were given seven consecutive daily knee injections of 2 ml of fresh autologous blood, and then compared to contralateral ACLs from control knees injected with 2 ml of lactated Ringer's solution daily for 7 days. The rabbits were then sacrificed. Synovial proliferation with iron deposition within synoviocytes was observed; however, the architecture of the ACL was maintained. Additionally, the total collagen content, collagenase activity, and biomechanical properties of the ACL were unaltered.
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PMID:Acute hemarthrosis: a histological, biochemical, and biomechanical correlation of early effects on the anterior cruciate ligament in a rabbit model. 216 90

Functional acetylcholine receptor (AChR) and sodium channels were expressed in the membrane of Xenopus laevis oocytes following injection with poly(A)+-mRNA extracted from denervated rat leg muscle. Whole-cell currents, activated by acetylcholine or by depolarizing voltage steps had properties comparable to those observed in rat muscle. Oocytes injected with specific mRNA, transcribed from cDNA templates and coding for the AChR of Torpedo electric organ, expressed functional AChR channels at a much higher density. Single-channel currents were recorded from the oocyte plasma membrane following removal of the follicle cell layer and the vitelline membrane from the oocyte. The follicle cell layer was removed enzymatically with collagenase. The vitelline membrane was removed either mechanically after briefly exposing the oocyte to a hypertonic solution, or by enzyme treatment with pronase. Stretch activated (s.a.) currents were observed in most recordings from cell-attached patches obtained with standard patch pipettes. S.a.-currents were evoked by negative or positive pressure (greater than or equal to 5 mbar) applied to the inside of the pipette, and were observed in both normal and mRNA injected oocytes indicating that they are endogenous to the oocyte membrane. The s.a.-channels are cation selective and their conductance is 28 pS in normal frog Ringer's solution (20 +/- 1 degree C). Their gating is voltage dependent, and their open probability increases toward more positive membrane potentials. The density of s.a.-channels is estimated to be 0.5-2 channels per micron 2 of oocyte plasma membrane. In cell-attached patches s.a.-currents are observed much less frequently when current measurement is restricted to smaller patches of 3-5 micron 2 area using thick-walled pipettes with narrow tips. In outside-out patches s.a.-currents occur much less frequently than in cell-attached or inside-out patches. AChR-channel and sodium channel currents were observed only in a minority of patches from oocytes injected with poly(A)+-mRNA from rat muscle. AChR-channel currents were seen in all patches of oocytes injected with specific mRNA coding for Torpedo AChR. In normal frog Ringer's solution (20 +/- 2 degrees C) the conductance of implanted rat muscle AChR-channels was 38 pS and that of sodium channels 20 pS. The conductance of implanted Torpedo AChR channels was 40 pS. The conductance of implanted channels was similar in cell-attached and in cell-free patches.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Patch clamp measurements on Xenopus laevis oocytes: currents through endogenous channels and implanted acetylcholine receptor and sodium channels. 243 68

A preparation of decapsulated muscle spindles with intact sensory innervation has been developed to allow direct access to the sensory terminal for the application of drugs or to alter the extracellular ionic composition. Muscle spindles were isolated from semitendinosus muscles of the frog Rana catesbeiana, and were incubated in a calcium-free Ringer's solution containing 0.2% collagenase. Following optimal incubation at 34 degrees C for 30 min the response pattern of the spindles during stretch could not be distinguished from that of intact spindles, although the duration of individual afferent spikes was prolonged about 4 times normal. The spikes disappeared immediately after the Ringer's solution was replaced with an isotonic choline chloride solution, in contrast to those of intact spindles which remained for 30 min after the replacement. Electron microscopy showed that the outer and inner capsules were partially disrupted. No significant change was observed in the size or packing density of intramembrane particles in freeze-fracture replicas of spindles decapsulated under optimum conditions. More prolonged treatment with the enzyme resulted in abolition of the static component of the response during stretch, and also in an aggregation of the particles, whose size decreased and packing density increased.
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PMID:Modification of sensory-terminal responses and membrane structure of frog muscle spindle by collagenase. 283 16

The objective of this study on frog skin was to examine correlations between transepidermal active Na-transport and intracellular [Na]c, [K]c, [Cl]c homeostasis. Isolated, whole skins, and "split skins" were used in measurements of short-circuit current (SCC) and open skin potential (PD). Water and ion contents were estimated on split skins. Absolute [Na]c and [K]c varied over the range of 18 to 46, and 113 to 80 mM, respectively (Figure 7), but a complementary relationship existed between Na and K, such that [Na]c + [K]c remained approximately equal to 129 mM. Average values for [Na]c and [K]c were approximately equal to 31 and approximately equal to 96 mM, respectively. [Cl]c remained constant at approximately equal to 38 mM. This complementary relationship does not seem to be an artifact, caused by collagenase, used in the preparation of split skins. Whole skins and split skins in Ringer's solution, when treated with fluoroacetate (FAc), ouabain (Ou), or vanadate (Va) over wide ranges of concentrations, showed that FAc greatly depressed the SCC and the PD, without changing [Na]c, [K]c, [Cl]c. FAc acted only from the corium side of the skin. The decreasing SCC remained a Na-current, as in control skins. By comparison, such a separation of cellular functions could not be established with Ou, or Va. These inhibitors either affected SCC, PD, and cellular ion concentration, or they had no effect on any of these parameters. The complementary relationship between [Na]c and [K]c, with [Cl]c remaining again at approximately equal to 38 mM, was also found in tissues exposed to inhibitors. These results indicate that transcellular active Na transport and electrolyte homeostasis are not always rigidly coupled, suggesting that these processes may not be uniformly distributed within the epithelial cells, or among the interconnected cell layers of the frog skin epidermis.
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PMID:Sodium transport and distribution of electrolytes in frog skin. 300 93

Isolated acini from lactating mouse mammary glands were prepared by collagenase and hyaluronidase digestion of tissue. Mammary tissue or acini incubated in vitro in tissue culture medium or a similar Ringer's solution lost K and gained Na. Intracellular concentrations approached, but did not equal, the concentrations in the external solution. This ion shift was largely prevented by incubating in a solution with ionic composition resembling mouse milk. In paired experiments, incubation with ouabain (1 mM) caused further increases in Na and decrease in K, suggesting that a functional Na+-K+-ATPase was present. Viability of acini was indicated by normal ATP content and morphology. The ion shift in NaCl-based solutions was slower at 0 degrees C than at 37 degrees C, suggesting that the flux is a membrane-regulated process. Under identical procedures, ion shifts did not occur in thymocytes or a cultured mammary cell line but were seen in both lactating and nonlactating mammary tissue. Nonlactating mammary tissue had a high Na and low K concentration in vivo. As predicted by previous models for the mechanisms of milk secretion, intracellular electrolyte content in mammary epithelial cells appears to be responsive to the ion concentration in the extracellular environment.
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PMID:Sodium and potassium content and viability of mouse mammary gland tissue and acini. 337 13

We have used the pH-sensitive, fluorescent, cytoplasmic-trapped dye 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein (BCECF) to identify Na+-H+ exchange in gastric glands isolated from rabbit stomachs by high-pressure perfusion and collagenase digestion. The fluorescence of BCECF-loaded glands was calibrated in terms of cytosolic pH (pHc) by permeabilizing the cell membranes and titrating the extracellular solution to different pH values. In one set of experiments in Cl--free solutions, glands were treated with 0.1 mM ouabain for 45 min to increase cellular cytosolic molar sodium ion concentration [( Na+]c) to high levels. Subsequent suspension of these cells in a Na+-free Ringer's solution (to generate [Na+]c greater than [Na+]o) caused cells to acidify rapidly (t1/2 approximately equal to 60 sec) from pHc approximately equal to 7.15 to pHc approximately equal to 6.55. Subsequent addition of 100 mM Na+ or Li+, but not K+, caused cells rapidly to increase pHc (t1/2 approximately equal to 30 sec) toward the control value. These changes of pHc were blocked when ouabain-treated glands had been preequilibrated for 10 min with 1 mM amiloride, and this block was overcome by adding 10 microM monensin (an ionophore that artificially exchanges Na+ for H+). In another set of experiments in Cl--containing Ringer's solution, glands were acid-loaded by treatment with 30 mM NH4Cl for 4 min, followed by washing the NH4Cl from the solutions. Under these conditions, pHc decreased from 7.02 to approximately equal to 6.5; subsequent alkalinization of cells back to control pHc was stimulated by Na+ (t1/2 approximately equal to 60 sec), but not K+, and was inhibited by 1 mM amiloride. This amiloride block also was overcome by further addition of 10 microM monensin. We conclude that gastric glands contain a Na+-H+ exchanger that appears independent of Cl-, not activated by K+, and blocked by 1 mM amiloride. This exchanger is likely localized to the serosal membrane of gland cells. Na+-H+ exchange may play an important role in regulation of pHc in oxyntic and chief cells exposed to high luminal acidity, where back diffusion of H+ into cells may occur at rapid rates.
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PMID:Na+-H+ exchange in gastric glands as measured with a cytoplasmic-trapped, fluorescent pH indicator. 609 95

Enterocytes from the winter flounder (Pseudopleuronectes americanus) were isolated by collagenase digestion and maintained in flounder Ringer's solution. Whole cell currents were studied using the amphotericin-perforated whole-cell patch clamp technique. The mean resting membrane potential and capacitance values or dissociated cells were -45 +/- 7 mV and 5 +/- 0.4 pF, respectively. Enterocytes held at -20 mV and treated with 1 mumol.l-1 ionomycin exhibited outward currents when cells were stepped through a series of voltages from -60 to +110 mV. The reversal potential of this current in flounder Ringer's solution was -55 mV and the voltage at which half-maximal activation occurred was +20 mV. Voltage-dependent inhibition of outward current was observed at +60 mV and above. When cells were bathed in symmetric K Ringer's solution the reversal potential shifted to zero mV and no inhibition of current was observed at voltages between -60 and 140 mV. When the holding potential of the cell was changed from -20 to -80 mV and stepped from -60 to +110 mV, a second [previously characterized, O'Grady et al. (1991)] K current with delayed-rectifier properties was identified. This observation demonstrated that the delayed rectifier K channel and the Ca(2+)-activated K channel described in this study exist in the same cell. Extracellular addition of 2 mmol.l-1 Ba2+ to cells bathed in symmetric K Ringer's solution resulted in nearly complete inhibition of outward current. Charybdotoxin produced only minor effects on this current.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of a voltage-dependent, calcium-activated K conductance by cyclic GMP in dissociated flounder enterocytes. 815 Oct 17


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