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)

This study was performed to delineate the combined effects of a low-fat diet and chronic ethanol ingestion on collagen metabolism in rat pancreas. Rats fed a very low-fat diet (5% of total calories as lipid) for 12 weeks developed malnutrition as judged by weight loss (-33% of the initial body weight) and low serum albumin and amylase levels. The pancreas of malnourished rats showed increased collagenase activity with respect to animals fed a 35% lipid diet (p < 0.05). Hydroxyproline content was higher in the pancreas of malnourished rats and collagenase activity correlated well with hydroxyproline content (r = 0.57, p = 0.0013). Ethanol feeding for 12 weeks, regardless of the nutritional state of the rats, did not change the synthesis and degradation rates of collagen in the pancreas. The present study suggests that malnutrition may have profound effects on collagen metabolism.
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PMID:Effects of ethanol feeding and malnutrition on collagen synthesizing and degrading enzymes in rat pancreas. 873 36

An in vitro model to establish primary and subcultures of rat kidney proximal tubule (RPT) cells is described. After excising the kidneys and separating the cortex, the cortical tissue is digested with the enzymes DNAse-collagenase (Type I) resulting in a high yield of viable RPT Cells. The isolated RPT cells are then seeded onto rat tail collagen-coated surfaces and grown to confluency in a serum-free, hormonally defined medium. The cell yield can be increased by transferring the conditioned medium on Day 1 to more rat tail collagen-coated surfaces. RPT cell attachment and morphology was better on rat tail collagen-coated surfaces than on bovine collagen Type I coated surfaces. The culture medium was a 1:1 mixture of Ham's F-12 and Dulbecco's modified Eagle's medium supplemented with bovine serum albumin, insulin, transferrin, selenium, hydrocortisone, triiodothyronine, epidermal growth factor, and glutamine. The RPT cells became confluent in 7-10 d, at which point they could be subcultured by trypsinizing and growth in the same medium. In some studies, 10 ng/ml cholera toxin was added to the culture medium. We could passage the RPT cells up to 14 times in the presence of cholera toxin. The cells were investigated for activity of several markers. The cells were histochemically positive for alkaline phosphatase and gamma-glutamyl transpeptidase activity and synthesized the intermediate filament pankeratin. The RPT cells displayed apically directed sodium-dependent active glucose transport in culture. Hence, the RPT cells retain structural and functional characteristics of transporting renal epithelia in culture. This rat cell culture model will be a valuable tool for substrate uptake and nephrotoxicity studies.
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PMID:Normal rat kidney proximal tubule cells in primary and multiple subcultures. 879 58

The objective of this study was to examine the hepatic disposition characteristics of 20-mer model phosphodiester oligonucleotide (PO) and its partially phosphorothioated (PS3) and fully phosphorothioated (PS) derivatives in the single-pass isolated rat liver perfusion system. [32P]-labeled oligonucleotides were momentarily introduced into this system through the portal vein as a bolus input mode, and the venous outflow patterns were evaluated using statistical moment analysis. The apparent volumes of distribution of these oligonucleotides were greater than those of reference substances for vascular space (erythrocytes) and extracellular space (human serum albumin), indicating a significant interaction between oligonucleotides and the liver. Significant hepatic uptake of oligonucleotides was also observed. About 20%, 36%, and 52% of the injected dose (3 micrograms/rat) was taken up by the liver during a single passage after bolus injection of PO, PS3, and PS, respectively. In the case of PS injection, slow efflux from the liver was observed in the latter phase of perfusion. This suggests that the hepatic uptake process of these oligonucleotides greatly depended on their types. The results of collagenase perfusion experiments suggest that PS3 oligonucleotides were taken up by both liver parenchymal and nonparenchymal cells. The amount of total recovery in the liver decreased substantially by coadministration of polyinosinic acid, dextran sulfate, polycytidic acid and 4-acetamido-4'-isothiocyano-stilbene-2,2'-disulfonic acid. This suggests that PS3 was taken up by the liver as an anionic molecule in a nonspecific manner.
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PMID:Uptake characteristics of oligonucleotides in the isolated rat liver perfusion system. 891 2

Transdifferentiation is a change from one differentiated phenotype to another, involving morphological and functional phenotypic markers. Stability of the cellular phenotype is probably related to the extracellular milieu, as well as cytoplasmic and nuclear components that interact to control gene expression, and the conversion of cell phenotype is likely to be accomplished by selective enhancement of gene expression, which controls the terminal developmental commitment of cells. In this paper, we show the induction of cultured human islets cells to alter their usual phenotypic expression and attain morphological and functional characteristics of duct cells. Islets were isolated by collagenase digestion of pancreata that were removed from cadaveric organ donors. The islets were purified on a two-step density gradient of bovine serum albumin and were then placed into a three-dimensional rat-tail collagen gel matrix supplemented with NuSerum epithelial growth factor and cholera toxin. During the initial 96 h of culture, the islets underwent a cystic transformation that was associated with (1) the maintenance of immunoreactivity for neuron-specific enolase, an endocrine cell marker, but a progressive loss of insulin gene expression, (2) a loss of immunoreactivity for insulin protein, and (3) the appearance of CK-19, a marker for ductal cells. After the transformation was complete, the cells had the ultrastructural appearance of primitive duct-like cells. Cyst enlargement after the initial 96 h was associated, at least in part, with cell replication, as reflected in the 1500% increase in the incorporation of tritiated thymidine. These experiments are consistent with the transdifferentiation of an islet cell to a ductal cell. The exact mechanisms involved still need to be fully elucidated.
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PMID:Transdifferentiation of human islets to pancreatic ductal cells in collagen matrix culture. 892 86

Orthotopic liver transplantation is the most effective treatment for fulminant hepatic failure. As an alternative treatment, an efficient extracorporeal bioartificial liver should contain a large yield of functional hepatocytes with an immunoprotective barrier, for providing temporary adequate metabolic support to allow spontaneous liver regeneration or for acting as a bridge toward transplantation. Survival, proliferation, and functions of porcine hepatocytes were evaluated in primary cultures and after embedding in alginate beads, which were subsequently coated with a membrane made by a transacylation reaction between propylene glycol alginate and human serum albumin. Disruption of total pig livers by collagenase perfusion/recirculation allowed the obtention of up to 10(11) hepatocytes with a viability greater than 95%. Hepatocytes in conventional cultures or embedded in coated alginate beads survived for about 10 days, secreted proteins, particularly albumin, and maintained several phase I and II enzymatic activities, namely ethoxyresorufin-O-deethylase, oxidation of nifedipine to pyridine, phenacetin deethylation to paracetamol, glucuroconjugation of paracetamol, and N-acetylation of procainamide. Typical features of mitosis and [3H]thymidine incorporation indicated that porcine hepatocytes proliferated in both conventional cultures and alginate beads. The efficacy of the membrane surrounding alginate beads for protecting cells from immunoglobulins was tested by embedding HLA-typed human lymphocytes, which were subsequently incubated with specific anti-HLA immunoglobulin G and complement. These data show that large yields of porcine hepatocytes that are embedded in coated alginate beads remain functional and are isolated from large molecular weight molecules, such as immunoglobulins. This system represents a promising tool for the design of an extracorporeal bioartificial liver, containing xenogeneic hepatocytes, to treat acute liver disease in humans.
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PMID:Survival, proliferation, and functions of porcine hepatocytes encapsulated in coated alginate beads: a step toward a reliable bioartificial liver. 908 17

Addition of 10% albumin to the digestion medium has been suggested to enhance yield and integrity of harvested islets by inhibition of proteolytic activities and to improve endocrine function early after transplantation. The aim of this study was to evaluate in vivo by means of intravital fluorescence microscopy whether this rapid reversal of hyperglycemia after transplantation is due to improved graft vascularization. Pancreatic islets were isolated from Syrian golden hamsters by collagenase digestion using either solely Hank's balanced salt solution (HBSS) or HBSS supplemented with 10% human serum albumin. Islets were then transplanted into the dorsal skinfold chamber of syngeneic animals (control: N = 8 animals, n = 50 islets; albumin: N = 7, n = 41). The grafts' microvasculature was analysed on days 6, 10, and 14 after transplantation. Immunohistochemical staining for insulin was performed at the end of the microscopic observation period. Islet isolation with albumin supplementation did not increase islet yield. However, photomicroscopic analysis suggested a beneficial effect on the isolation process with improved islet integrity and prevention of outer margin irregularities, in particular in large islets. Analysis of revascularization 6 days after transplantation revealed in the control group a functional capillary density (FCD) of 477 +/- 47 cm-1. On day 10 FCD increased to 680 +/- 42 cm-1 with no further changes on day 14, indicating complete revascularization. Islets in the albumin group demonstrated a comparable FCD of 598 +/- 49 cm-1 on day 10 and complete revascularization on day 14 (655 +/- 45 cm-1). The angio-architecture of the islets was found similar in both groups, presenting with a glomerulum-like capillary network, comparable to that of pancreatic islets in situ. We conclude that the addition of 10% serum albumin to the collagenase digestion medium improves the preservation of the structural integrity of isolated pancreatic islets, however, does not influence the process of graft vascularization. Thus, improved early graft function may rather be due to superior preservation of islet cell integrity and function.
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PMID:Improved islet isolation by 10% albumin does not influence graft angiogenesis and vascularization. 922 11

The purpose of this investigation was to evaluate the application of high molecular weight, insoluble collagen as a carrier material for proteins. Matrices were formulated and their behavior in buffer solution was investigated with focus on swelling and inner structure. Cross-linking with glutaraldehyde was introduced prior to the formation of the devices and its influence characterized. In addition, the enzymatic degradation process was studied and release experiments with systems loaded with fluorescent-labeled bovine serum albumin were carried out. Insoluble collagen matrices were characterized by intensive swelling in buffer resulting in development of a coarse porous character. Cross-linking strongly reduced the water penetration, leading to denser structures of the swollen devices. The continuous enzymatic degradation of the disk-shaped matrices by collagenase followed the kinetics of an heterogeneous enzymatic process with hindrance of proteolysis by the addition of glutaraldehyde. Release studies demonstrated that large amounts of model protein were held in the matrices with increased cross-linking degree. In presence of collagenase a prolonged release of the trapped protein over several days by matrix cleavage could be achieved. Insoluble collagen can be effective as a carrier material for proteins with an in vitro release characteristic by both diffusion-controlled and enzymatic degradation mechanisms. Cross-linking at the stage of preparing the aqueous dispersion offers an alternative to subsequent cross-linking processes.
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PMID:Insoluble collagen matrices for prolonged delivery of proteins. 955 45

Porcine gelatin (heat-denatured collagen) was digested with a bioreactor using an enzyme-coupled matrix (ECM) with purified collagenase. The digested gelatin, FreAlagin type R (M.W. range 200-10000 Da), was further purified by an HPLC system depending upon molecular size. The molecular weight range of the purified fractions, FreAlagin type P and type AD, were 200-500 and 2000-10000 Da, respectively, and glycine was the N-terminal amino acid of both types (> or =93%). ECM has the capability of digesting gelatin at a specific point in the sequence before glycine, and it was determined that FreAlagin type P consists of a tri-peptide fraction with the amino acid sequence Gly-X-Y. No types of FreAlagin exhibited any reactivity with gelatin-specific IgG antibody raised in guinea pigs, and they also possessed an extremely low reactivity with gelatin-specific IgE antibody from the sera of patients who had experienced an anaphylactic reaction against gelatin after vaccination or after eating gelatin-containing foods. From these results, it was determined that FreAlagin types R and AD were non-antigenic, low-allergic gelatins. FreAlagin type R, and especially type AD, had strong adsorption-blocking activity comparable to the level of bovine serum albumin, whereas type P and glycine had virtually no adsorption-blocking activity. Therefore, the new types of gelatin, FreAlagin types R and AD, are suitable for pharmaceutical use to avoid gelatin allergy.
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PMID:Non-antigenic and low allergic gelatin produced by specific digestion with an enzyme-coupled matrix. 958 67

During endochondral ossification and bone remodeling, osteoprogenitors (OP) attach to the matrix and differentiate into osteoblasts. To identify matrix proteins binding specifically these precursors, fetal rat calvaria (RC) cells were plated for 5-20 min in serum-free medium, on wells coated with various proteins and saturated with bovine serum albumin (BSA) to block nonspecific binding sites. Adherent cells were either counted or grown to assess bone colony (nodule) formation. As each nodule originates from the clonal division of one OP, the ratio (nodules/100 cells attached) measures the proportion of OP among adherent cells. Of numerous purified matrix proteins tested, laminin-1 and tenascin inhibited cell attachment, whereas fibronectin, bone sialoprotein, and type I collagen increased cell attachment and others had no effect. Only laminin-1 and, to a lesser extent, tenascin, enriched the cell population in OP. Laminin-1 acted time- and dose-dependently. In experiments in which cell attachment to laminin-coated but unsaturated wells was ensured by plating for 24 h in 10% fetal calf serum, laminin-1 had no effect on cell attachment nor on OP differentiation. In contrast, repeated plating of RC cells on laminin-1-coated/saturated wells depleted the population in OP, confirming that OP selection was a cell-attachment effect. When RC cell populations isolated by successive collagenase extractions were compared, the highest rate of OP enrichment on laminin-1 was obtained with the earliest populations, which were the most responsive to dexamethasone, a marker of early OP stages. In conclusion, laminin-1 recruits in vitro, through a cell-attachment effect, OP present in early RC cell populations, of which laminins are abundant extracellular matrix components.
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PMID:Selective attachment of osteoprogenitors to laminin. 1022 45

To explore the method of isolating acutely the smooth muscle cells from pulmonary artery in rats, small pulmonary arteries (700-200 microns, ID) were dissected free of connective tissue and were allowed to digest in a N-2-hydroxyethyl-piperazine-N'-2-ethanesulfonic acid(HEPES)-buffered physiological saline solution (HPSS) containing collagenase, papain and bovine serum albumin. The tissue was then triturated to disperse smooth muscle cells. The isolated cells in suspension were identified and photographed with film on electron microscope (EM). We succeeded in isolating the single smooth muscle cell, which appeared compressed typically. 90% cells in suspension were identified smooth muscle cells on EM. We conclude that the method for isolation of pulmonary arterial smooth muscle cells is simple, stable and effective and is recommanded for use.
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PMID:[Isolation and identification of smooth muscle cells from pulmonary artery in rats]. 1068 82


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