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)

Spontaneously contracting myocytes were isolated from ventricles of the adult rat heart. Hearts were perfused retrogradally via the aorta for 30 minutes at 37 degrees C with Ca2+-free phosphate-buffered saline containing collagenase and hyaluronidase. The venticles were divided into pieces and incubated 15 minutes with the enzymes. Dislodged cells were decanted, diluted with cold buffer and allowed to settle. The washed cells were then sedimented through 3% Ficoll. This procedure yielded approximately 50 mg of protein from 1 gm of heart. Viability measured by trypan-glue exclusion is 90-95%. Approximately 80% of the cells were beating. Scanning electron microscopic studies suggest that the isolated myocytes are morphologically intact. The cells oxidize glucose, pyruvate, citrate and palmitate to CO2 and synthesize protein and RNA. Uptake of glucose, 2-deoxyglucose, leucine and taurine was saturable. Glucose uptake was stimulated by insulin. The cells retained LDH and CPK as well as their capacity to oxidize substrates after 24 hours at 4 degrees C or 4 hours at 37 degrees C. After 24 hours at 4 degrees C the cells resume contracting when returned to room temperature. The procedure reported here for the isolation of spontaneously contracting, adult, rat heart myocytes provides cells with a high index of viability and greater yield than previously reported methods. The cells retain metabolic activity and withstand storage for longer periods than other described preparations.
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PMID:Isolation and characterization of myocytes from the adult rat heart. 91 20

A dose-dependent impairment of intrinsic myocardial performance has been observed following in vivo administration of endotoxin. The present study reports a dose-dependent increase in plasma catecholamines following endotoxin (ET) that may impair beta-adrenergic responsiveness. Hearts were removed from pentobarbital-anesthetized rats 4 h after a bolus injection of saline or ET (1,000, 100, or 10 micrograms/100 g body wt) and were studied as isolated cell preparations following collagenase digestion. Responsiveness of isoproterenol-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) accumulation in myocytes prepared from hearts of animals injected with 10 and 100 micrograms ET was decreased when compared with control rats and was significantly blunted in myocytes prepared from animals receiving 1,000 micrograms ET. Similar sensitivities of the cAMP system existed, as judged by similar half-maximum effective concentration values. cAMP accumulation in the presence of 1 microM forskolin was depressed in myocytes from the 1,000-microgram ET animals; beta-adrenergic receptor density was decreased 25% (P less than 0.05) in myocytes from high-dose ET animals when compared with control animals. This was accompanied by a nonsignificant reduction in the affinity of binding sites for (+/-) [3H]CGP 12177. The blunted myocyte hormonal responsiveness following ET challenge appears to be related to the decreased activity of the adenylate cyclase that may be attributed to alterations in both receptor density and in the adenylate cyclase itself.
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PMID:Myocardial adrenergic responsiveness after lethal and nonlethal doses of endotoxin. 302 79

Regional variations in the size and shape of isolated myocytes were studied using the two-kidney, one clip (2K1C) renal model of hypertension. Weanling male Sprague-Dawley rats (50 to 75 g) were anesthetized by ketamine (100 mg/kg) during renal artery clipping (0.2 mm internal diameter silver clip) and were then allowed to grow for 6 to 8 weeks, when the blood pressure had stabilized at 180 mmHg. Hearts were removed, weighed and then were perfused with a calcium-free Joklik medium containing collagenase. Isolated myocytes were collected from five regions and fixed in isoosmolar glutaraldehyde: right ventricular free wall (RVFW), right and left halves of the interventricular septum (RIVS, LIVS), and epicardial and endocardial halves of the left ventricular free wall (LEPI, LENDO). Myocyte volume was measured by Coulter Counter. Myocyte length was measured by sonic digitizer. Cross-sectional area was calculated from myocyte volume and length. Tailcuff systolic pressure and heart weight were significantly increased in 2K1C rats as compared to control. Body weights were not different. Cell volume was significantly increased in RIVS, LIVS, LEPI, and LENDO, but not in RVFW. Cell length was not significantly increased in any region. Thus, the 2K1C model showed a predominant left ventricular hypertrophy in which the right half of the septum acted in concert with the left ventricle. The shape of the hypertrophied myocytes, having an increase in volume due to an increase in cross-sectional area but not length, was most consistent with a pressure-induced form of cardiac hypertrophy.
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PMID:Regional myocyte size in two-kidney, one clip renal hypertension. 323 84

Previous experiments conducted in this laboratory have indicated that adult Sprague-Dawley rats obtained from Holtzman Company (H) have hearts that are significantly larger than those obtained from Charles River (CR). To investigate potential differences in cell size and number, isolated myocytes were prepared by retrograde coronary perfusion with collagenase. Cell volume (V) was measured with a Coulter Channelyzer, cell length (L) was measured directly, and cross-sectional area (CSA) was calculated from V/L. Cell number was calculated using data from isolated cells and whole-sectioned tissue. Although V for left and right ventricular myocytes was similar in CR and H rats, myocytes from CR tended to be shorter in L (P less than 0.001), but larger in CSA (N.S.) than myocytes obtained from H rats. In both H and CR, left ventricular V and CSA were greater (P less than 0.01) in endomyocardium than epimyocardium and middle myocardium. Values for V and CSA of right ventricular myocytes were less (P less than 0.01) than those from left ventricles in both H and CR. Hearts from H had 19% more myocytes than those from CR (P less than 0.05). Values for cellular dimensions from CR generally showed less variability than those from H. We conclude that significant regional differences in myocyte size are present in rats from both H and CR. Hearts from H rats have significantly more myocytes than those from weight-matched CR rats. Therefore, investigators should be aware that differences in heart weight and myocyte number can be found in rats of the same strain, but obtained from different suppliers.
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PMID:Regional differences in cardiac myocyte dimensions and number in Sprague-Dawley rats from different suppliers. 367 59

Morphologic features of the cell surface were studied in isolated cardiac myocytes obtained from 12 and 48 week old Spontaneously Hypertensive Rats (SHR) and normotensive Wistar-Kyoto (WKY) control rats. Hearts obtained from ether-anesthetized animals were perfused with Ca++-free Hanks' solution containing EGTA and 0.1% collagenase. The hearts were minced and the suspended cells fixed in 2% phosphate buffered glutaraldehyde. Cells mounted on Nuclepore membrane filters were dehydrated in alcohol and critical point dried for SEM. Quantitative evaluation of myocyte length, width and volume was done with a sonic digitizer on H and E stained cells by light microscopy. At both ages studied there was a significant increase in heart weight to body weight ratio, systolic blood pressure and cell size in SHR compared to WKY controls. In the older animals there appeared to be increased numbers of cell junction areas and deep grooves in the cell surface which appeared more pronounced in SHR than in WKY. The cell surface of the myocytes from 48 week old animals had deep capillary grooves surrounded by protruding longitudinal bundles of myofibrils. These changes would result in increased surface area of the larger cells and diminish the effect of increased cell size on diffusion distance from capillary to tissue. These changes in cell morphology were interpreted as providing a protective effect against development of functional impairment in the hypertrophied hearts.
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PMID:Surface morphology of isolated cardiac myocytes from hypertrophied hearts of aging spontaneously hypertensive rats. 644 76

The purpose of this study was to compare coronary and interstitial endothelin-1 (ET-1) levels in perfused rat hearts under several experimental conditions, because the cardiac tissue concentration of ET-1 is not clear. Hearts were perfused in an upside-down position with a colloid-free buffer at a constant flow rate of 9 ml/min/g heart wet weight, and immunoreactive ET-1 was determined in timed collections of coronary effluent and interstitial transudate produced by the ventricles and appearing on their surface. Basal ET-1 release into effluent was 0.26 +/- 0.007 pg/min/g, and 0.005 +/- 0.0012 pg/min/g in transudate. Basal ET-1 concentration was 0.11 +/- 0.005 pg/ml (transudate) and 0.03 +/- 0.002 pg/ml (effluent), indicating four-fold higher transudate than effluent levels (P < 0.05). Following perfusion of hearts with collagenase to remove endothelial cells, ET-1 release into effluent was reduced to one-third and completely abolished in transudate, indicating that the peptide originated from the vascular endothelium. Perfusion of hearts with angiotensin II (0.1 mumol/l) or thrombin (5 U/ml) increased coronary perfusion pressure and ET-1 secretion, but little affected the transudate/effluent ET-1 concentration ratio (5.5 and 3.2, respectively). When coronary flow was reduced to ischaemic level (1 ml/min/g over several hours), ET-1 secretion rates into effluent were decreased by 55-65%, but increased three- to four-fold on reperfusion at normal flow (P < 0.05). The ET-1 concentrations in both fluids were still always below 1 pg/ml. No change in coronary perfusion pressure compared to time-matched normoxic controls was observed. In the presence of the ET-1 converting enzyme inhibitor, phosphoramidon (1.7 mumol/l), ischaemia-induced increases of ET-1 secretion were attenuated, and this was accompanied by a time-dependent rise in coronary perfusion pressure up to 60% (P < 0.05). These are the first measurements of endogenous cardiac tissue ET-1 levels; they do not support a vasoconstrictor (pro-ischaemic) action of endogenous ET-1 in rat hearts following ischaemia/reperfusion, but rather point to a possible vasodilator role of the peptide under these conditions.
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PMID:Tissue endothelin-1 levels in perfused rat heart following stimulation with agonists and in ischaemia and reperfusion. 852 55

A population of stem cells has been isolated from embryonic avian and neonatal rat skeletal muscle. These cells differentiate into several mesodermal phenotypes in culture upon treatment with dexamethasone. This study reports the isolation of a similar population of stem cells from another mesodermal tissue, the heart. Hearts were excised from 3- to 5-day- old rats, minced, and treated with a collagenase-dispase solution. Single cells were collected by centrifugation, washed, and plated in dishes. The cells were grown to confluence, trypsinized, and frozen at -80 degrees C in 7.5% dimethylsulfoxide. After at least 24 hr, the cells were thawed and plated in 24-well plates and treated with media containing dexamethasone at concentrations of 10(-6)-10(-10) M for 4 weeks. Control cultures contained mononucleated cells with a stellate morphology. Treatment with dexamethasone resulted in the appearance of several mesodermal phenotypes. Bone and cartilage nodules were identified with von Kossa and Alcian blue staining respectively. Adipocytes were identified using Sudan black B stain. Smooth muscle cells were identified by an anti-smooth muscle alpha-actin antibody, and skeletal myotubes were stained with anti-myosin antibody. Large binuclear cells with obvious fibers were noted and stained with anti-desmin. These binuclear cells appeared in both the control and the dexamethasone-treated cultures and were tentatively identified as cardiomyocytes. These data strongly suggest the existence of a population of mesenchymal stem cells in neonatal rat heart.
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PMID:A population of cells isolated from rat heart capable of differentiating into several mesodermal phenotypes. 863 45

Capillary endothelial cells are thought to limit the transport of insulin from the vascular to the interstitial space, resulting in attenuated hormonal action at target sites. This study examined the contribution of endothelial cells to the regulation of transcapillary insulin transport in rat hearts in vitro. Hearts were perfused with a protein-free buffer that resulted in the generation of a substantial amount of interstitial fluid (transudate) that was collected at the surface of ventricles. Insulin (0.05-1 U/l) was added to the perfusate, and its transfer kinetics to and clearance from the interstitium were analyzed from insulin measurements in transudate of hearts with intact or collagenase-disrupted endothelium. In endothelium-intact hearts (n = 5-8), the steady-state insulin concentration in transudate was 29 +/- 4, 30 +/- 2, 53 +/- 1, 103 +/- 6, and 97 +/- 4% of perfusate concentrations at 0.05, 0.1, 0.2, 0.5, and 1 U/l insulin, respectively. The corresponding apparent rate constants for transport (k(in)) increased from 0.03/min to -0.27/min, indicating a nonsaturable transport process. The transport rate for [3H]insulin (1.2 nmol/l; n = 5) was identical to an equimolar concentration of insulin (0.2 U/l), strongly indicating the same mode of transport. In endothelium-disrupted hearts (n = 3-5), the same perfusate/transudate concentration ratios were observed--that is, a gradient at low insulin concentrations (0.05-0.2 U/l) and complete equilibration at higher insulin concentrations, suggesting a contribution of reabsorption processes back into the vascular space in the generation of the gradient. Finally, inhibition of endothelial nitric oxide (NO) formation by NG-nitro-L-arginine (200 micromol/l) affected neither k(in) nor the extent of transendothelial insulin transport in the presence of an intact endothelium. We concluded that 1) capillary endothelial cells affect the transcapillary transport of insulin by slowing the transfer to the interstitium, 2) insulin is transported by a bidirectional convective transport rather than by a saturable receptor-mediated mechanism, and 3) endothelium-derived NO is without effect on transcapillary insulin transport in this model.
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PMID:Contribution of the endothelium to transcapillary insulin transport in rat isolated perfused hearts. 964 38

Granulocyte-colony stimulating factor (G-CSF) has been reported to mobilize bone marrow multi-potent stem cells, which differentiate into cardiac myocytes after myocardial infarction (MI). However, there have not been any reports regarding the effect of G-CSF on stem cell infiltration in the MI site. Hearts of mice that had undergone coronary occlusion were isolated and digested with collagenase. Infiltrating cells in the heart were collected using Percoll density gradients. The infiltrating cells were sorted for side population (SP) cells using Hoechst 33342 dye. Hundreds of infiltrating SP cells were found in the heart from 1 to 14 d after MI. There were only a few SP cells in hearts without infarction. Infiltrating SP cells were increased in the 4-d G-CSF treated group compared with the vehicle group (1106 +/- 106 vs. 323 +/- 26/heart, P < 0.05). The infiltration of inflammatory cells was not influenced by the G-CSF treatment. In a separate series of experiments, we confirmed that the infiltrating SP cells were derived from bone marrow. That is, SP cells in the infarcted hearts of mice, which had been transplanted with bone marrow from ROSA 26 (beta-galactosidase transgenic) mice, were positive for beta-galactosidase. In the immunohistochemical examination, Sca-1(+)/CD45(-) cells were existed in the infarcted site after MI. Therefore, SP cells may infiltrate into infarcted heart. G-CSF augmented this kind of stem cell infiltration without increasing inflammatory cells. These results suggest that G-CSF may enhance myocardial regeneration without aggravated inflammation in the infarcted heart.
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PMID:G-CSF treatment increases side population cell infiltration after myocardial infarction in mice. 1513 66

Myocardial calcium accumulation and myocardial injury occur after burn trauma. However, whether altered calcium dyshomeostasis occurs as a result of myocardial injury/dysfunction or whether altered calcium handling initiates myocardial injury and contractile abnormalities remains unclear. In addition, the specific mechanisms by which burn injury promotes calcium entry into cardiac myocytes, specifically L-type channels and the sodium-calcium exchanger, remain unclear. This study addressed the hypothesis that burn trauma promotes cardiomyocyte calcium accumulation, in part, via reverse mode function of the sodium/calcium exchanger and via L-type channels. Myocardial calcium accumulation, in turn, alters performance. Burn trauma (40% TBSA and sham burn for controls) was accomplished in Sprague-Dawley rats. Burns received fluid resuscitation (lactated Ringer's at 4 ml/kg/% burn). Hearts were harvested at several time points after burn injury (2, 4, 8, 12, 24, 48, 72 hours, and 8 days after burn) and were perfused with collagenase/bovine serum albumin-containing buffer to produce enzymatic digestion. Myocytes were then resuspended in MEM buffer, loaded with 2 mug/ml Fura 2AM for 45 minutes or 2 microg of sodium-binding benzofurzan isophthalate for 2 hours at room temperature in the dark. Cells were washed to remove extracellular dye and placed on a glass slide on the stage of a Nikon inverted microscope interfaced with Grooney optics. A computer-controlled filter changer allowed alternation between 340/380 excitation wavelengths; fluorescence was measured at 510 nm. Cardiac function (Langendorff) was measured in parallel groups at each time period (n = 6-7 hearts/time point). Cardiomyocyte accumulation of sodium occurred before alterations in myocyte calcium levels, and sodium/calcium dyshomeostasis preceded cardiac contraction deficits. Interventions that altered calcium flux through L-type channels (amlodipine) or sodium/calcium exchange (amiloride) attenuated burn-related myocyte calcium accumulation and improved contractile function. Our finding that myocyte sodium loading precedes myocyte calcium accumulation suggests a role for the reverse mode function of the sodium/calcium exchanger in burn trauma.
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PMID:Cardiac myocyte accumulation of calcium in burn injury: cause or effect of myocardial contractile dysfunction. 1587 47


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