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)

Collagen was obtained from liver tissue of rats with hydralazine-induced collagen-like syndrome. Bacterial collagenase was used to solubilize the collagen, and the aldehyde content of this material was measured using N-methyl benzothiazolone hydrazone. The aldehyde content was decreased in the in the collagen from livers of rats with collagen-like syndrome. The changes in hepatic collagen may be analogous to the effect of aging on collagen, wherein collagen cross-linking is strengthened although qualitative changes in cross-linking may lower the measurable aldehydes.
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PMID:Aldehyde content of collagen from liver of rats with collagen-like syndrome. 668 57

The preparation and potential clinical use of biodegradable microarterial grafts from rat aorta were investigated. Trypsin treated arterial segments were coated with heparin or chondroitin sulfate to reduce thrombogenicity. The samples were crosslinked with formaldehyde vapors at 4 degrees C. 50 - 100 microgram glycosaminoglycans taken up per mg aorta dry weight were resistant to washing with water for 24 hrs. The covalent crosslinks introduced by formaldehyde and resistance of the grafts to proteolytic degradation. The treated grafts were implanted on 70 rats in an infrarenal aortic position. The permeability of the aldehyde crosslinked prosthesis after 21 days by patency test was lower than the patency ratio measured with fresh autologous grafts. The glycosaminoglycans associated with the prosthesis improve the patency of the crosslinked grafts by about 48%. The resistance to bacterial collagenase of the excised grafts decreased with progressing time of implantation. In the permeable prosthesis and in the contiguous aorta, elastolytic activity was demonstrated by radial diffusion in elastin-agar gels. The grafts removed after 21 days of implantation were surrounded with scar tissue. In contrast to fresh aorta, the macromolecular hydroxyprolin in the scar was readily solubilized with pepsin. The presence of the fragmented elastin and collagen fibers in the excised graft is in favour of their resorption "in vivo".
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PMID:Biodegradable arterial prosthesis from rat aorta. 677 72

In an effort to evaluate further the concept of ethanol-induced lipid peroxidation, isolated rat hepatocytes obtained via collagenase perfusion were utilized. Hepatocytes were judged to be functionally intact based on measurements of adenosine-5-triphosphate, gluconeogenesis, bromosulphthalein uptake, and trypan blue exclusion. When hepatocytes were incubated with acetaldehyde, a metabolite of ethanol, at 100 mg% and 10 mg%, significant increases in lipid peroxidation resulted as measured by levels of malonaldehyde. Acetaldehyde-induced increases in malonaldehyde were reduced by pre-incubation with antioxidants such as Vitamin E (200 mg%) or glutathione (100 mg%).
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PMID:Acetaldehyde-induced lipid peroxidation in isolated hepatocytes. 710 Jun 31

The objective of the present investigation was to characterize further the connective tissue disorder produced by pyridoxine (vitamin B-6) deficiency, as previously evidenced by electron microscopy. Following the second post-natal week, fast growing male chicks were deprived of pyridoxine for a 1-mo period. Six weeks post-natally, blood concentrations in the experimental deficiency group had declined to deficiency levels as registered by low concentrations of pyridoxal phosphate (coenzyme form) in erythrocytes, but did not reach levels associated with neurological symptoms. Light microscopic study showed abnormalities in the extracellular matrix of the connective tissues. Collagen cross-links and the aldehyde contents were not significantly lower in cartilage and tendon collagens of vitamin B-6-deficient animals than in age-matched controls; also, their proteoglycan degrading protease and collagenase activities measured in articular cartilages were not greater. Thus, proteolysis was an unlikely alternative mechanism to account for the loss of connective tissue integrity. These results point to the need for further investigation into adhesive properties of collagen associated proteoglycans or other proteins in vitamin B-6-deficient connective tissue.
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PMID:Connective tissue integrity is lost in vitamin B-6-deficient chicks. 781 73

Highly purified islets of Langerhans were prepared in the present study from adult pigs by collagenase digestion and density gradient purification. After overnight culture, the tissue was equilibrated with DMSO at 25 degrees C, supercooled to -7.5 degrees C, nucleated, slowly cooled at 0.25 degrees C/min to -40 degrees C, and stored at -130 degrees C. Then, after variable periods of storage, the islets were rapidly thawed at 37 degrees C. Postthaw actual islet and islet equivalent (150-microns sized islets) recovery were 75 +/- 7% and 66 +/- 4%, respectively. The frozen-thawed porcine islets maintained good morphology on histological staining by hematoxylin-eosin and aldehyde-fuchsin. Upon perifusion, basal insulin secretion was 43 +/- 10 and 67 +/- 18 pmol/L from noncryopreserved, control islets, and cryopreserved islets, respectively (P = 0.2). Peak insulin release at 16.7 mmol/L glucose was 85 +/- 28 pmol/L from noncryopreserved islets and 157 +/- 48 pmol/L from the frozen-thawed islets (P = 0.1). When 10 mmol/L theophylline was added to 16.7 mmol/L glucose, the secretion of the hormone peaked to 221 +/- 83 (control islets) and 479 +/- 140 pmol/L (cryopreserved islets, P = 0.1). Total insulin secretion differed significantly for the noncryopreserved and the cryopreserved islets at both 16.7 mmol/L (1412 +/- 306 vs. 3756 +/- 764 pmol/L, respectively, P = 0.007) and 16.7 mmol/L glucose plus 10 mmol/L theophylline (2161 +/- 371 vs. 7505 +/- 2075 pmol/L, respectively, P = 0.011). Normoglycemia was restored within 7 days from implantation in temporarily immunosuppressed (aL3T4 antibody) mice with streptozotocin-induced diabetes by transplanting 1500-2000 cryopreserved porcine islets under the kidney capsule. Mean survival time of frozen-thawed islet xenografts (39 +/- 3 days) was similar to that of noncryopreserved islet xenografts (43 +/- 6 days). This study demonstrates that cryogenic storage is feasible of isolated porcine islets, with the frozen-thawed pancreatic endocrine tissue maintaining morphological integrity and both in vitro and in vivo viability. Further studies are needed to define the effect of cryopreservation on the immunogenic properties of porcine islets.
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PMID:Cryogenic storage of isolated, purified porcine pancreatic islets. 810 68

In alcoholic liver disease, it is well-known that ethanol and its metabolites induce hepatic fibrosis. With progress in injury, the accumulation of extracellular matrix, which consists of type I, III, IV collagen and laminine, occurs in the area of hepatic central vein and perihepatocytes. In these fibrotic areas, the activated lipocytes (transitional cell and myofibroblast, etc), which may be transformed from Ito cell by fibrogenic cytokines, are increased and may play an important role in the progression of alcoholic hepatic fibrosis. Actually, a recent study indicates that chronic ethanol consumption sensitizes the response of lipocytes to TGF beta. It is observed that acetaldehyde and lactate stimulate collagen production and that acetaldehyde increases collagen mRNA expression and collagen gene transcription in cultured human fibroblast. The extracellular matrix is degraded by matrix metalloproteinases (MMPs). The collagenase activity is decreased in progression of liver cirrhosis and is regulated by fibrogenic cytokines. Acetaldehyde decreases by 50% of the collagenase mRNA expression in fibroblast. It is clear that hepatic fibrosis may progress under the balance of collagen production and degradation, which are associated with fibrogenic cytokines. Thus, in the search for mechanism of alcoholic hepatic fibrosis, it is important to elucidate how ethanol and its metabolites influence the activation of lipocytes through fibrogenic cytokines.
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PMID:[Alcoholic liver cirrhosis]. 811 91

This study was designed to investigate whether the changes in lysine hydroxylation known to occur in hypertrophic tendon occur randomly or at specific lysine residues in the type I collagen molecule. Peptides corresponding to the two known major cross-linking sites of type I collagen (a lysine (or hydroxylysine) at position 9N cross-linked to a hydroxylysine at 930 and a lysine (or hydroxylysine) at position 16C cross-linked to a hydroxylysine at position 87) were prepared by collagenase digestion, size fractionation, and separation by high performance liquid chromatography from normal chicken tendon and from chicken tendon subjected to increased tensile load as a result of muscle hypertrophy. The ratio of the difunctional cross-links dihydroxylysinonorleucine to hydroxylysinonorleucine in normal tendon is 0.75:1; this ratio is increased to 6:1 in hypertrophic tendon. The dihydroxylysinonorleucine to hydroxylysinonorleucine ratio is increased to the same extent in samples of the purified cross-linked peptides derived from both the N-terminal and C-terminal lysine aldehyde residues. On the other hand, the relative hydroxylysine content of preparations of the pooled larger helical peptides obtained by cyanogen bromide digestion of normal and hypertrophic tendons was essentially identical. These results demonstrate that there is a specific increase in hydroxylation of only the N- and C-terminal non-helical lysine residues that participate in the formation of the reducible difunctional cross-links of type I collagen in hypertrophic tendon, while the extent of hydroxylation of lysine residues in the helical regions is not affected. The specific mechanism by which the enzyme lysyl hydroxylase acting on its substrate can distinguish between lysine residues destined to be in non-helical versus helical regions in a nascent collagenous peptide that has not yet attained its final secondary structure remains to be defined.
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PMID:Tendon hypertrophy is associated with increased hydroxylation of nonhelical lysine residues at two specific cross-linking sites in type I collagen. 824 92

The purpose of this study was to investigate the in vitro degradation potential of porcine pericardia fixed with various aldehyde or epoxy compound (EC) fixatives, using bacterial collagenase and pronase. The fixatives investigated were formaldehyde (FA), glutaraldehyde (GA), monofunctional EC (EX-131), and multifunctional ECs (EX-810, EX-313, and EX-512). Fresh porcine pericardium was used as a control. The test samples were well immersed in a 20-U/mL collagenase solution or a 10-U/mL pronase solution and incubated at 37 degrees C at pH 7.5 for 24 h. The extent of degradation of each test sample was determined by measuring its increment in free amino group content and changes in collagen structure, denaturation temperature, and tensile stress after degradation. In general, the extent of tissue degradation with pronase was more notable than with collagenase. As observed with fresh tissue, the EX-131 EC fixed tissue radically disintegrated after either collagenase or pronase degradation, whereas the other test samples remained intact. The reason for this may reside in the more random molecular packing of the EX-131 EC-fixed tissue, which led to some loss in its helical integrity. This made penetration of enzymes into biological tissue easier. Of the multifunctional EC test groups, tissues fixed with tetrafunctional EC (EX-521) or trifunctional EC (EX-313) had relatively better resistance to degradation than those fixed with bifunctional EC (EX-810). The extent of degradation for the EX-313 or EX-512 EC fixed tissues was similar to that observed for the FA- or GA-fixed tissues. The results of this study indicated that the biological tissue fixed with monofunctional EC (EX-131) cannot resist bacterial collagenase or pronase degradation. However, resistance to degradation of the multifunctional EC (EX-313 or EX-152)-fixed tissues was comparable to that of the aldehyde (FA or GA)-fixed tissues. Therefore, of various EC fixatives, the EC with a greater number of functional groups should be chosen for tissue fixation to increase its resistance to enzymatic degradation.
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PMID:Degradation potential of biological tissues fixed with various fixatives: an in vitro study. 913 63

Acetaldehyde stimulates collagen synthesis in stellate cells and forms adducts with procollagen in the liver of alcoholics. To assess the possibility that modification of the carboxyl-terminal propeptide by acetaldehyde affects its capacity to exert a feedback inhibition of collagen synthesis after splitting from procollagen, the propeptide was prepared by gel filtration of the bacterial collagenase digests of procollagen type I (obtained from 10(9) calvaria fibroblasts of newborn rats) and reacted with either 250 mM acetaldehyde and 100 mM CNBH3 or with 170 microM acetaldehyde without reducing agents, to mimick in vivo conditions. The unmodified propeptide produced a concentration-dependent inhibition of collagen synthesis by Ito cells. By contrast, the acetaldehyde-modified propeptide produced a lesser inhibition of procollagen synthesis in the cells, associated with a greater accumulation of collagen in the media. The incubation with 170 microM acetaldehyde and, to a lesser extent, 50 mM ethanol produced collagenase-digestible adducts in stellate cells. Thus, the formation of acetaldehyde adducts with the carboxyl-terminal propeptide of procollagen may account, at least in part, for the stimulatory effect of acetaldehyde on collagen synthesis by stellate cells and may lead to collagen accumulation through a decrease of the normal feedback regulation of collagen synthesis by the propeptide.
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PMID:Collagen synthesis by liver stellate cells is released from its normal feedback regulation by acetaldehyde-induced modification of the carboxyl-terminal propeptide of procollagen. 934 80

Effect of cigarette smoke on collagen crosslinking was studied in male albino rat skins. Skin samples taken for the analysis on 120th day of exposure to cigarette smoke showed that, compared to controls, the exposed animal had a decreased tendency in the percent reversibility of neutral salt soluble collagen gel, susceptibility of insoluble collagen to denaturing agents and bacterial collagenase. Electrophoresis on SDS-polyacrylamide gel revealed a marked increase in the beta components of the collagen of the rats exposed to cigarette smoke (5.34%) and an appreciable decrease in the ratio of alpha/beta (7.78%). An increase in the aldehyde content of neutral salt soluble collagen was also noticed (32.11%). These changes collectively could indicate the increased crosslinking of dermal collagen in cigarette smoke exposed rats.
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PMID:Influence of cigarette smoke on cross-linking of dermal collagen. 937 18


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