Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.24.3 (collagenase)
 18,340 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The poor growth associated with protein-calorie malnutrition occurs despite circulating growth hormone levels that are normal or elevated and is thought to be mediated partly by blunted generation of insulinlike growth factor I (IGF-I) in the liver. To explore underlying mechanisms, we asked whether altered availability of amino acids could regulate hepatic IGF-I release independent of the contributions of regulatory hormones. Normal rat hepatocytes were isolated by collagenase digestion and maintained in serum-free medium with fixed concentrations of insulin and dexamethasone. Levels of immunoassayable albumin and IGF-I accumulation in daily changes of medium were sustained for 3-5 days, and all studies were performed within this period. Cellular viability and content of DNA were unaffected by deprivation of the essential amino acids lysine or tryptophan and the nonessential amino acids cysteine and/or cystine. However, deletion of tryptophan or lysine from the culture medium led to 63 and 76% declines in IGF-I release, respectively (both P less than 0.001 vs. complete medium), although omission of cysteine or cysteine plus cystine produced no significant change. Over 5 days of culture, release of albumin was maintained in complete medium, but omission of tryptophan depressed albumin release over days 2-5 (P less than 0.001). In complete medium, IGF-I release rose for 3 days and then declined. In tryptophan-deficient medium, IGF-I levels were comparable to control values after 24 h but did not rise at 48 h and then fell rapidly after 72 h in culture, with values significantly below levels in complete medium (all P less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nutrition and somatomedin. XXIII. Molecular regulation of IGF-I by amino acid availability in cultured hepatocytes. 190 9

Malnutrition is associated with defects in connective tissue metabolism such as altered growth and wound healing. Because collagen is the major protein in most tissues, we determined the threshold for induction of altered collagen production by partial food restriction in rats. Groups of animals were fasted 2 or 4 d or were fed 20-100% of a predetermined food intake for 4 to 8 d. Collagen and noncollagen protein production in articular cartilage were determined using purified collagenase digestion of collagen labeled for 2 h in vitro with [3H]proline. Significant decreases in collagen (P less than 0.01) were seen in rats after 4 d of 40% (weight-losing rats) or after 8 days of 80% (weight-gaining rats) ad libitum intake. Collagen production decreased with both duration and degree of food deprivation; after 8 d of 20% intake, collagen was less than 10% that of controls fed ad libitum (P less than 0.001). In contrast, noncollagen protein production was significantly decreased only after 4 or 8 d of less than 40% intake (weight-losing rats). Maximum suppression of noncollagen protein was to approximately 65% of levels in controls fed ad libitum (P less than 0.01) and was not further reduced in fasted rats. Insulin-like growth factor-I levels were significantly decreased with duration and severity of diet in parallel with changes in collagen. The degree and sensitivity of altered collagen production to small changes in food intake suggest close regulation of this peptide and a potential role for decreased collagen synthesis in connective tissues during mild states of undernutrition.
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PMID:Collagen production in fasted and food-restricted rats: response to duration and severity of food deprivation. 200 4

Our previous work suggests that persistent protein malnutrition in immature domestic fowl (Gallus gallus domesticus) alters ACTH-adrenocortical cell interaction, possibly including ACTH receptors. To investigate this possibility, we measured some ACTH receptor parameters in isolated adrenocortical cells from normal and dietary protein-restricted domestic fowl. White Leghorn cockerels (2 weeks old) were fed isocaloric semipurified diets containing either 8% [low (L)] or 20% [normal (N)] soy protein for 4 weeks ad libitum. Cockerels were quickly killed by decapitation and exsanguination, and adrenal glands were removed and prepared for cell isolation. Highly enriched (greater than 80% pure) adrenocortical cells (collagenase isolated, followed by separation on a Percoll continuous density gradient) were evaluated for ACTH receptors using pharmacological and radioligand approaches. In a pharmacological approach, we measured the influence of the complete, competitive antagonist, human (h) ACTH-(7-38) on hACTH-(7-39)-induced corticosterone production by adrenocortical cells from L and N cockerels. Inhibitor constants of hACTH-(7-38), calculated from Schild plots, were 3.16 X 10(-7) and 9.82 X 10(-7) M for L and N cockerel cells, respectively, thus suggesting differences in ACTH receptor function between the two treatment groups. To characterize ACTH receptors directly, we measured the binding of a monoiodinated ACTH analog [125I-Tyr23]hACTH-(1-39) to domestic fowl adrenocortical cells. Binding was linear with cell concentration, highly specific (only ACTH peptides caused significant displacement), rapid (maximal binding by 1 h), reversible (half-time of dissociation, approximately 40 min), and saturable. Curvilinear Scatchard plots were obtained, and vectorial analysis resolved both high and low affinity sites. The concentrations (femtomoles per 50 micrograms DNA) and dissociation constants (Kd) of both classes of sites were different between N and L bird cells. Values of these receptor parameters for N and L cockerel cells were, respectively, as follows: concentrations of low affinity sites, 7.45 and 11.60; concentrations of high affinity sites, 3.16 and 5.50; Kd of low affinity sites, 2.05 X 10(-8) and 2.58 X 10(-9) M; Kd of high affinity sites, 1.01 X 10(-9) and 1.27 X 10(-10) M. Thus, the overall binding capacity of L bird cells was 65% greater than that of N bird cells. In addition, the overall affinity (1/Kd) of sites of L bird cells was 9 times that of sites of N bird cells. These data indicate that persistent protein malnutrition in the domestic fowl increased both the number and affinity of adrenocortical cell ACTH receptors.
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PMID:Protein malnutrition in the domestic fowl induces alterations in adrenocortical cell adrenocorticotropin receptors. 282 10

Stenosis or complete occlusion of the oesophagus are potentially life-threatening complications of recessive dystrophic epidermolysis bullosa. Consequences are malnutrition, growth retardation, aspiration, or cachexia. Total replacement of the oesophagus by colon interposition has been recommended in such patients. We report on successful conservative management. We applied recently developed knowledge concerning the defective collagenase involved in this disorder and oesophageal dilatation. Phenytoin has been shown to reduce the excessive production of collagenase and thereby to diminish blistering of skin and mucous membranes and stricture formation of the oesophagus. Stepwise dilatation of oesophageal strictures instead of bouginage represents a less traumatic way to restore the oesophageal lumen. The lumen can be maintained by soft nasogastric feeding tubes which may be removed later on after successful dilatation. Oesophageal passage has been maintained for up to 4 years. The management of these severe complications of recessive dystrophic epidermolysis bullosa requires interdisciplinary efforts of dermatologists, internists and otorhinolaryngologists.
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PMID:[Therapy of esophageal stenoses in recessive epidermolysis bullosa dystrophica]. 406 56

Three decades of research in ethanol metabolism have established that alcohol is hepatotoxic not only because of secondary malnutrition, but also through metabolic disturbances associated with the oxidation of ethanol. Some of these alterations are due to redox changes produced by the NADH generated via the liver ADH pathway, which in turn affects the metabolism of lipids, carbohydrates, proteins, and purines. Exaggeration of the redox change by the relative hypoxia, which prevails physiologically in the perivenular zone, contributes to the exacerbation of the ethanol-induced lesions in zone III. Gastric ADH also explains first-pass metabolism by ethanol; its activity is low in alcoholics and in females and is decreased by some H2 blockers. In addition to ADH, ethanol can be oxidized by liver microsomes: studies over the last 20 years have culminated in the molecular elucidation of the ethanol-inducible cytochrome P450 (P4502E1) which contributes not only to ethanol metabolism and tolerance, but also to the selective hepatic perivenular toxicity of various xenobiotics. Their activation by P4502E1 now provides an understanding for the increased susceptibility of the heavy drinker to the toxicity of industrial solvents, anesthetic agents, commonly prescribed drugs, over-the-counter analgesics, chemical carcinogens, and even nutritional factors such as vitamin A. Ethanol causes not only vitamin A depletion, but it also enhances its hepatotoxicity. Furthermore, induction of the microsomal pathway contributes to increased acetaldehyde generation, with formation of protein adducts, resulting in antibody production, enzyme inactivation, decreased DNA repair; it is also associated with a striking impairment of the capacity of the liver to utilize oxygen. Moreover, acetaldehyde promotes GSH depletion, free-radical-mediated toxicity, and lipid peroxidation. In addition, acetaldehyde affects hepatic collagen synthesis; both in vivo (in our baboon model of alcoholic cirrhosis) and in vitro (in cultured myofibroblasts and lipocytes); ethanol and its metabolite acetaldehyde were found to increase collagen accumulation and mRNA levels for collagen. This new understanding may eventually improve therapy with drugs and nutrients. Encouraging results have been obtained with some "super" nutrients. On the one hand, SAMe, the active form of methionine, was found to attenuate the ethanol-induced depletion in SAMe and GSH and associated mitochondrial lesions. On the other hand, phosphatidylcholine, purified from polyunsaturated lecithin, was discovered to oppose the ethanol-induced fibrosis by decreasing the activation of lipocytes to transitional cells, and possibly also by stimulating collagenase activity, an effect for which dilinoleoylphosphatidylcholine, its major phospholipid species, was found to be responsible.
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PMID:Biochemical factors in alcoholic liver disease. 833 2

Some recent proposals in management of alcoholic liver disease are discussed focusing on early diagnosis and treatment of alcohol abuse itself, alcoholic hepatitis early mortality, clinical meaning of nutritional therapy, serological approach and treatment of hepatic fibrosis, and problems in liver transplantation for end stage alcoholic liver cirrhosis. CAGE or similar systematized brief questionnaires, and desialylated transferrin/total transferrin ratio as serological marker, seems to be interesting contributions to "hidden" alcohol abuse diagnosis and abstinence control while psycho-social support and voluntary incorporation to self-aid groups are the best weapons to reach persistent abstinence. Corticosteroids seems to improve survival in a selected group of patients with severe alcoholic hepatitis, specially in those presenting encephalopathy but free of GI bleeding, decompensated diabetes, active infections, pancreatitis, and other contraindications or adverse effects of these drugs. Relationship between direct toxicity and nutritional deficiencies in pathogenesis of alcoholic liver injury are not clear enough, but malnutrition is generally present in patients requiring hospitalization, and related to clinical severity; oral, enteral or parenteral nutritional supplementation in this order of preference according to patients condition, associated or not with steroid anabolics, are useful in cases with moderate to severe alcoholic hepatitis or decompensated cirrhosis to eliminate the catabolic state, reaching a better nitrogen balance and liver function tests, without special adverse effects. A special role on liver regeneration is discussed. Antioxidants and supernutrients are special "modern" aspects of nutritional therapy in alcoholic liver disease generally related to the MEOS activation in chronic alcoholism, the excessive production of free radicals, and the depletion of glutathione, membrane phospholipids (specially phosphatidycholine), and vitamin A, E, and C. Natural supplements as soybean polyunsaturated lecithin, with high concentration of phosphatidycholine, or oral supplementation with natural metabolic products depleted from the liver of chronic heavy drinkers, such SAMe, have an interesting rationale based on experimental and clinical findings besides availability and costs. Carotenoids and tocopherols supplementation seems to be an useful tool, but are limited in the case of vitamin A because its special toxicity in chronic alcoholism. Serological markers of metabolism of liver connective tissue are clearly involved in fibrogenesis process and other inflammatory connected events; standardization of laboratory methods surely will result in new possibilities of non-invasive valuation of liver injury, evolution and therapeutic response; special histological damage such as sinusoidal "cappilarization" (type i.v. collagen and laminin), endothelial sinusoidal cell function (seric hyaluronate), or collagenase activity (TIMP-1 or tissue inhibitor of metalloproteinases-1) seems to be valuable by these new technologies.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[New suggestions for the management of alcoholic liver diseases]. 852 63

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

Neutrophils are the major cellular immune components in response to bacterial infections. Neutrophil enzymes are important in invasion, inflammation, and infection processes. In order to understand the basic effects of protein malnutrition on neutrophils we studied matrix metalloproteinases 8 and 9 (MMP-8 and MMP-9) production in severe quantitative and qualitative protein malnutrition in rats. Wistar rats (2 months old) were divided into four groups each with three subgroups and fed various protein-containing diets (24% protein, 20% gelatin-containing and N-free) for 7, 14, 21, and/or 28 days. Neutrophil enzyme expression was determined by Western blotting. Leukocytes decreased significantly due to malnutrition (p = 0.001 ) whilst the percentage of neutrophils increased (p = 0.02) in protein-deprived groups. Neutrophils of malnourished rats produced lower levels of MMP-8 at early stages of protein deprivation with an increase in the following weeks. MMP-9 production by neutrophils from N-free diet fed animals was highest after one week. Serum MMP-9 levels decreased in the qualitative but not in the quantitative protein malnutrition groups. Results suggest that neutrophils might be important in reuse of body cell proteins during fasting or malnutrition conditions and dietary manipulation might have profound effects on MMP-8 and -9 production in rats.
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PMID:The expression of matrix metalloproteinases 8 and 9 by neutrophils of Wistar albino rats with severe qualitative and quantitative protein malnutrition. 1622 42

Successful clinical translation of prospective cytoprotectants will likely occur only with treatments that improve functional recovery in preclinical (rodent) studies. Despite this assumption, many rely solely on histopathologic end points or the use of one or two simple behavioral tests. Presently, we used a battery of tests to gauge recovery after a unilateral intracerebral hemorrhagic stroke (ICH) targeting the striatum. In total, 60 rats (N=15 per group) were stereotaxically infused with 0 (SHAM), 0.06 (MILD lesion), 0.12 (MODERATE lesion), or 0.18 U (SEVERE lesion) of bacterial collagenase. This created a range of injury akin to moderate (from SEVERE to MODERATE or MODERATE to MILD lesion size approximately 30% reduction) and substantial cytoprotection (SEVERE to MILD lesion size--51% reduction). Post-ICH functional testing occurred over 30 days. Tests included the horizontal ladder and elevated beam tests, swimming, limb-use asymmetry (cylinder) test, a Neurologic Deficit Scale, an adhesive tape removal test of sensory neglect, and the staircase and single pellet tests of skilled reaching. Most tests detected significant impairments (versus SHAM), but only a few (e.g., staircase) frequently distinguished among ICH groups and none consistently differentiated among all ICH groups. However, by using a battery of tests we could behaviorally distinguish groups. Thus, preclinical testing would benefit from using a battery of behavioral tests as anything less may miss treatment effects. Such testing must be based on factors including the type of lesion, the postoperative delay and the time required to complete testing.
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PMID:Gauging recovery after hemorrhagic stroke in rats: implications for cytoprotection studies. 1639 82

Recessive dystrophic epidermolysis bullosa (RDEB) is a disease characterized by recurrent blistering and chronic ulceration of the skin. In these patients, recurrent blisters frequently result in intractable skin ulcers due to impaired wound healing caused by mutations in the type VII collagen gene and malnutrition as well as by increased collagenase activity. To evaluate the efficacy of amnia for intractable ulcers in RDEB, we treated RDEB patients with amnia. The amniotic membrane was simply placed on the cleansed wound surface. The procedure was repeated once a week for up to 10 weeks. As a result, wound conditions improved remarkably after treatment with amnia for 2-10 weeks in all the patients, resulting in total re-epithelization of the ulcers. Amnia could be an effective therapy for intractable skin ulcers in RDEB patients, and should be considered as a re-emerging therapeutic option for the disease.
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PMID:Amnia for intractable skin ulcers with recessive dystrophic epidermolysis bullosa: report of three cases. 1740 42


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