Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

We modified and improved enzyme digestion and density gradient separation procedures to obtain fractions of proximal and distal renal tubules with high yield and viability. Kidneys from two anesthetized adult Wistar rats were flushed with Krebs-Henseleit buffer (KHB) and then perfused in situ with recirculated KHB containing collagenase and hyaluronidase at 125 mmHg. Cortices were excised, minced, and incubated in KHB containing enzymes for 35 min at 37 degrees C. Dissociated tubules were removed at 10-min intervals, rinsed, and placed in KHB containing 10% calf serum, vitamins, and amino acids at 4 degrees C. Separation was achieved by suspending the tissue in 45% isosmotic Percoll layered over an undiluted Percoll cushion and centrifuging. Proximal tubules sedimented near the cushion. Distal segments were isolated in the uppermost bands of a second 35% Percoll separation. Viability was greater than 95% as measured by lactate dehydrogenase leakage and quantitated by oxygen consumption and ATP content. Basal oxygen consumption was greater than 33 nmol O2 X min-1 X mg protein-1 in all fractions and was stimulated by succinate and inhibited by amiloride and ouabain. Basal ATP content averaged 9.7 nmol/mg ATP. An average 3.3-fold separation for the proximal fraction and 24.5-fold separation for the distal fraction was assessed by the enrichment of six specific enzyme markers, with several of the markers indicating separations up to 32-fold. Isolated tubules also displayed functional responses to parathyroid hormone and vasopressin. Distal, but not proximal, segments demonstrated significantly increased adenosine 3',5'-cyclic monophosphate formation with vasopressin.
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PMID:Improved separation method for rat proximal and distal renal tubules. 303 59

The antihyperglycemic agent, metformin (dimethylbiguanide), inhibits hepatic gluconeogenesis. To investigate the mechanism involved, glucose production from collagenase-isolated hepatocytes of starved rats was determined after 1 hr incubations with different substrates. In the absence of insulin, glucose production from 10(-2) M lactate-10(-3) M pyruvate, 10(-2)M M alanine, 10(-2) M glutamine and 5 x 10(-3) M glycerol was decreased (35-78%) by high concentrations (10(-2) and 10(-3) M) of metformin. Lower concentrations of metformin were not effective in the absence of insulin, but a therapeutic concentration (10(-5) M) of metformin acted synergistically with insulin (10(-8) M) to suppress gluconeogenesis from each of the substrates by an additional 10-14% compared with insulin (10(-8) M) alone. The synergistic antigluconeogenic effect of metformin (10(-5) M) with insulin (10(-8) M) was achieved without alteration of the contents of NADH and NAD+ in digitonin-separated cytosolic and mitochondrial-rich hepatocyte fractions. Mitochondrial ATP was also unaltered by the metformin (10(-5) M)-insulin (10(-8) M) combination. However, the antigluconeogenic effect of 10(-2) M metformin alone was associated with an increased (by 109%) mitochondrial NADH:NAD+ ratio. Thus reduced gluconeogenesis by high concentrations of metformin (e.g. 10(-2) M) may involve changes of redox state. However, therapeutic concentrations of metformin (e.g. 10(-5) M) potentiate the antigluconeogenic effect of insulin to a similar extent from a range of substrates, without altering energy status or redox state.
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PMID:Inhibition of hepatic gluconeogenesis by metformin. Synergism with insulin. 305 29

Using freshly isolated single smooth muscle cells prepared by collagenase treatment, membrane currents were recorded by whole-cell voltage clamp. Intracellular constituents were modified by using an intracellular perfusion technique, i.e., pipette solutions were continuously exchanged from control to test solutions during current recording. In smooth muscle cells, intracellular application of ATP, but not cyclic AMP, enhanced the amplitude of Ca2+ currents and prevented current run-down. In addition, with this stabilization of Ca2+ current recording by ATP, introduction of various chemicals into the cell using the intracellular perfusion technique is useful for investigations of regulation of ion channels in smooth muscle cells.
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PMID:Whole-cell voltage clamp and intracellular perfusion technique on single smooth muscle cells. 317 40

The newest knowledge on the osteoclast allows us to consider bone resorption in a global perspective, as the resultant of three successive steps that may each be individually regulated by physiopathologic or pharmacologic agents. The first involves the formation of osteoclast progenitors in hematopoietic tissues followed by their vascular dissemination and the generation of resting preosteoclasts and osteoclasts in bone. The second consists in the activation of osteoclasts at the contact of mineralized bone. Osteoblasts appear to control this step by exposing the mineral to osteoclasts and preosteoclasts and/or by releasing a soluble factor that activates these cells. In a third step, activated osteoclasts resorb both the mineral and the organic of mineralized bone through the action of agents that they secrete in the segregated zone underlying their ruffled border. The mineral appears to be solubilized by hydrogen ions secreted by an ATP-driven proton pump located at that border and fed by protons generated from CO2 by carbonic anhydrase. The removal of organic matrix, which could be prepared by osteoblast collagenase at the level of nonmineralized bone surfaces, appears dependent on acid proteinases, particularly cysteine-proteinases, secreted, together with other lysosomal enzymes, in the acid microenvironment of the resorption zone.
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PMID:Cellular biology and biochemical mechanism of bone resorption. A review of recent developments on the formation, activation, and mode of action of osteoclasts. 328 76

Rat renal papillary collecting duct (PCD) cells were isolated using collagenase and hyaluronidase digestion and a three-step low-speed centrifugation. As assessed by binding of the lectin Dolichos biflorus and determination of vasopressin-sensitive adenylate cyclase and Na+-K+-ATPase, the enrichment of PCD cells over a crude papillary cell preparation was 1.8, 2.4, and 1.4, respectively. Microscopic evaluation indicated that the preparation was greater than 90% pure PCD cells. The isolated cells were viable as evident from the high K/Na ratio of intracellular electrolytes measured by electron probe analysis (5.3), from the high ATP/ADP ratio (2.15), and the metabolic response to alterations in Na transport. Exposure to 2 mM ouabain or removal of Na reduced O2 consumption by 25-35%; the uncoupler carboxylcyanide-m-chlorophenylhydrazone more than doubled O2 consumption. In the presence of 14 mM glucose and at a PO2 of 100 Torr the cells produced substantial quantities of lactate. This aerobic glycolysis may account for greater than 20% of the ATP production. In the presence of rotenone, glycolysis increased by 56% and was able to maintain the cellular ATP level at 65% of control. In the absence of any exogenous substrate PCD cells respired normally and had a close to normal ATP content, but lactate production was markedly decreased. These results demonstrate that viable PCD cells can be isolated from rat kidney. At normal PO2 and in the presence of D-glucose the cells show a substantial amount of aerobic glycolysis, although their mitochondrial respiration is not rate limiting. In the absence of glucose the cells derive the majority of their energy from an as yet unidentified endogenous substrate.
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PMID:Purification of rat papillary collecting duct cells: functional and metabolic assessment. 330 74

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

The present observations demonstrate that quiescent calcium-tolerant adult rabbit cardiac myocytes can be isolated by collagenase-hyaluronidase perfusion and maintained in primary culture for at least 2 wk. Culturing large numbers of myocytes requires that the freshly isolated cells be attached to a suitable substratum such as laminin, type IV collagen, or fetal bovine serum. The cultured myocytes retain their rod-like morphology for approximately 7 days before gradually spreading into a flattened conformation by 14 days. During the 1st wk of culture, contaminating interstitial cells rapidly proliferate, making cultures unsuitable for long-term study. Pure myocyte populations can be established and maintained if freshly isolated cells are cultured in the presence of cytosine arabinoside (Ara-C, 10 microM). This antimetabolite does not appear to adversely affect high-energy phosphates, since ATP and creatine phosphate (CrP) content of the myocytes is maintained at levels normally found in biopsy samples of rabbit myocardium. These results illustrate that an energetically stable population of adult cardiac myocytes can be maintained in primary culture in sufficient numbers to make them useful for future investigations of myocyte function.
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PMID:Attachment and maintenance of adult rabbit cardiac myocytes in primary cell culture. 338 98

A method for the isolation of hepatocytes from postnatal (1- to 3-week-old) mice has been developed. Cell isolation was carried out by retrograde perfusion of the liver with a collagenase-containing bicarbonate buffer. Viable cells were separated by selective adsorption onto collagen membranes. Cell viability was assessed by measuring ATP and glutathione content, lactate:pyruvate ratio, and the rate of protein synthesis. Comparisons of these parameters were made with those in cells isolated from adult mice and with values in whole liver. These hepatocytes were capable of metabolizing acetaminophen to its known hepatic conjugates and were susceptible to acetaminophen toxicity. This procedure for isolating mouse hepatocytes should be useful for the study of hepatic drug metabolism and its relationship to toxicity in the postnatal mouse.
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PMID:Isolation of hepatocytes from postnatal mice. 358 90

Granulosa cells, isolated by collagenase digestion from the mature ovarian follicle of laying hens, were incubated in the presence of two ionophores, lasalocid (X537A) and ionomycin, to determine their effects on basal and stimulated steroidogenesis, as well as their effects on various cell parameters including DNA, RNA, and protein synthesis. Both ionophores caused a dose-dependent inhibition of agonist-promoted progesterone production and, in the presence of calcium, a small but significant increase in basal output of progesterone. Whereas the conversion of pregnenolone to progesterone was unaffected by the ionophores, the activity of cholesterol side-chain cleavage enzyme was inhibited in a dose-related manner. Both ionophores decreased cellular levels of ATP and inhibited the incorporation of radioactively-labeled precursors into DNA, RNA, and proteins. Morphologically, ionophore-treated cells showed swelling of the rough endoplasmic reticulum. Similar morphological changes were also observed in cells treated with oligomycin, a known metabolic inhibitor. These results suggest that the ionophores lasalocid and ionomycin impair release of energy and thereby exert the principal cause of the inhibited steroidogenic response by granulosa cells to a variety of agonists.
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PMID:The effects of ionophores on steroidogenesis and morphology of avian granulosa cells. 360 49

Experimental factors implicated in the pathogenesis of halothane hepatotoxicity in the phenobarbital-hypoxia rat model were examined for direct effects on the energy status of isolated rat liver cells in vitro. Intact hepatocytes were isolated after collagenase perfusion of livers of adult male Fischer 344 rats previously treated with phenobarbital (0.1% in drinking water for 5-7 days) and/or deprived of food for 48 h. Cells were incubated in Krebs-Henseleit buffer + substrates for 10 min at steady states of energy metabolism, with extracellular PO2 constant at 32, 16, or 4 mmHg +/- 1% halothane. Fasting produced the largest energy deficits in incubated hepatocytes, regardless of phenobarbital treatment status, PO2 value, or presence/absence of halothane. The combination of hypoxic PO2 (4 mmHg) and 1% halothane shifted lactate metabolism toward lactate production, whereas hypoxia or halothane alone did not. Prior phenobarbital treatment plus hypoxia decreased adenosine triphosphate/adenosine diphosphate (ATP/ADP) and increased lactate production compared with drug treatment or hypoxia alone. We conclude that pathogenic factors that interact to produce halothane hepatotoxicity act directly and jointly on isolated liver cells to produce energy deficits within 10 min. Differences in the relative importance of pathogenic factors in vitro and in vivo suggest that short-term, direct effects on hepatocellular energy status are not solely responsible for halothane hepatotoxicity.
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PMID:Energy deficits in hepatocytes isolated from phenobarbital-treated or fasted rats and briefly exposed to halothane and hypoxia in vitro. 376 35


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