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)

Serum levels of carboxyterminal propeptide of type I procollagen (PICP) and aminoterminal propeptide of type I procollagen (PINP) have been used as indices of collagen synthesis in patients with various fibrotic diseases during the active stages. One of the suggested contributory factors to the development of tissue fibrosis is a decrease in collagenase activity, which may be related to levels of serum tissue inhibitors of metalloproteinases-1 (TIMP-1). In this study, the serum levels of PICP and PINP in 20 patients with dermatomyositis and 29 control subjects and of TIMP-1 in 29 patients with dermatomyositis and 29 control subjects were measured using an enzyme-linked immunosorbent assay (ELISA) or a radioimmunoassay (RIA). We found that the mean PICP level in patients with dermatomyositis was significantly higher than that in normal controls (mean +/- SD 326+/-76 ng/ml vs 135+/-88 ng/ml; P < 0.001). In 60% of dermatomyositis patients, the serum PICP level was elevated (more than 311 ng/ml, i.e. 2 x SD above the mean control value). Elevated serum PICP levels were correlated with the incidence of elevated serum creatine kinase levels in patients with dermatomyositis. The serum concentration of PINP was not elevated in comparison with that of the normal control subjects (mean +/- SD 36+/-30 ng/ml vs 63+/-34 ng/ ml). The mean TIMP-1 level in the patients with dermatomyositis was also significantly higher than in the normal control subjects (mean +/- SD 438+/-328 ng/ml vs 163+/-63 ng/ml; P < 0.001). In 59% of dermatomyositis patients, the mean serum TIMP-1 level was elevated (more than 289 ng/ml, i.e. 2 x SD above the mean control value). Serum PICP and TIMP-1 levels might be useful for detecting disease activity or severity in dermatomyositis.
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PMID:Serum concentrations of carboxyterminal propeptide of type 1 procollogen and tissue inhibitor of metalloproteinase 1 in patients with dermatomyositis. 968 76

The interferon (IFN) proteins, including IFN-alpha2b have been used as antifibrogenic factors to modulate the expression of extracellular matrix (ECM) proteins associated with fibroproliferative disorders in skin. This study was conducted to determine if IFN-alpha2b can counteract the fibrogenic effects of insulin-like growth factor-1 (IGF-1), which is present in large quantity in fibrotic dermis. Human dermal fibroblasts were established in culture and treated with either vehicle (control), 2000 U/ml IFN-alpha2b alone, 100 ng/ml IGF-1 alone, or both IFN-alpha2b and IGF-1. The results showed that treatment with IFN-alpha2b inhibited the proliferation of dermal fibroblasts, reduced the steady-state levels of type I procollagen mRNA in the cells, and reduced the production of collagen as measured by hydroxyproline in conditioned medium. However, this treatment also increased levels of collagenase mRNA in the cells and collagenase activity in the medium. Cells treated with IGF-1 showed increased proliferation and collagen production and decreased collagenase. Cells treated with both IFN-alpha2b and IGF-1 exhibited a 44% reduction in hydroxyproline production (p < 0.05) and a 363% increase in collagenase activity over cells treated with IGF-1 alone (p < 0.01). These results indicate that when IGF-1 and IFN-alpha2b are used individually, they function as fibrogenic and antifibrogenic factors for dermal fibroblasts, respectively, and that fibrogenic effects of IGF-1 on cell proliferation, collagen, and collagenase expression can be counteracted by IFN-alpha2b. These findings support the potential use of IFN-alpha2b as a therapeutic agent for treatment of fibroproliferative disorders, such as postburn hypertrophic scarring.
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PMID:IFN-alpha2b suppresses the fibrogenic effects of insulin-like growth factor-1 in dermal fibroblasts. 972 38

The prevention of cirrhosis in alcohol-fed baboons by the administration of a soybean extract-43% to 50% of which was dilinoleoyl-phosphatidylcholine (DLPC) and 24% of which was 1,palmitoyl 2,linoleoyl-phosphatidylcholine (PLPC)-was associated with a significant reduction in the number of stellate cells transformed to myofibroblast-like cells. To study whether these two major phospholipids affect the similar transformation that occurs by culturing stellate cells on uncoated plastic, we assessed their effects on proliferation (by (methyl-3H)-thymidine incorporation into DNA), expression of alpha-smooth muscle actin and type I procollagen (by densitometry of Western blots), and collagen synthesis (by incorporation of tritiated proline into collagenase-digestible proteins). These manifestations of stellate cell activation were decreased by 10 micromol/L DLPC but not by 10 micromol/L PLPC when compared with controls incubated either with 17 mmol/L ethanol (used as solvent for the phospholipids) or without addition. These agents did not affect cell viability, contamination with other cells, or the capacity of stellate cells to synthesize protein. Thus DLPC specifically decreases the in vitro activation of stellate cells, as judged by the decreases in proliferative activity, alpha-smooth muscle actin and procollagen I expressions, and collagen synthesis, whereas PLPC did not show such effects. alpha-Procollagen (type I) mRNA was not affected by DLPC, suggesting a post-translational effect. The reduction in the activation of hepatic stellate cells by DLPC may be responsible for, or at least contribute to, the prevention of fibrosis by the polyenylphosphatidylcholine mixture administered in vivo.
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PMID:Dilinoleoylphosphatidylcholine decreases hepatic stellate cell activation. 1021 64

The effects of a prolyl 4-hydroxylase inhibitor (HOE 077) on tissue inhibitor of metalloproteinase-1 (TIMP-1) and procollagen type I were examined in rat liver fibrosis. HOE 077 (200 ppm) prevented fibrosis by inhibiting the expression of liver type I procollagen and TIMP-1 mRNAs, with liver hydroxyroline content correlated with the reduction in activated stellate cells. HOE 077 prevents fibrosis by inhibiting proline hydroxylation and stellate cell activation, resulting in reduced expression of procollagen and TIMP-1 mRNAs.
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PMID:Prolyl 4-hydroxylase inhibitor (HOE 077) prevents TIMP-1 gene expression in rat liver fibrosis. 1043 15

Pulmonary fibrosis is a well-recognized feature of acute respiratory distress syndrome (ARDS). Using immunoassays of bronchoalveolar lavage (BAL), fluid we investigated the synthesis of type I procollagen (PICP) and type I/II collagen degradation products (COL2-3/4C(short) neoepitope) in patients with ARDS, acute lung injury (ALI), subjects with risk factors for ARDS (At Risk), and healthy/ventilated control subjects. PICP was measured by ELISA as a marker of type I procollagen synthesis. COL2-3/4C(short) neoepitope was measured by an inhibition ELISA as a marker of collagenase degradation of type I/II collagen. BAL was performed initially within 48 h of ventilation (Day 1) and then subsequently on Day 4. Dilution of epithelial lining fluid (ELF) was corrected for by plasma urea comparison. Increased PICP levels were observed in the ELF from ARDS and ALI subjects on Day 1 compared with subjects At Risk (median values, 124.9 and 95.0 ng/ml versus 38.0 ng/ml, respectively, p < 0.0005). By contrast, the levels of COL2-3/4C(short) neoepitope were significantly reduced in the subjects with ARDS versus the At Risk subjects (13.22 ng/ml versus 32.33 ng/ml, p < 0.0005). This translated into a greatly increased PICP:COL2-3/4C(short) ratio in the subjects with ARDS (p < 0.0001). There was a significant decline in the PICP level in the subjects with ARDS between Days 1 and 4 (n = 15, p < 0.05). Linear regression analysis showed a significant association between PICP and lung injury score in the subjects with ARDS (p = 0.01). Our data suggests an early shift in balance between type I collagen synthesis and degradation by collagenase. The resultant increase in type I collagen would favor matrix deposition and the development of pulmonary fibrosis in the lungs of subjects with ARDS.
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PMID:Changes in collagen turnover in early acute respiratory distress syndrome. 1058 5

Type I and type III procollagen are reduced in photodamaged human skin. This reduction could result from increased degradation by metalloproteinases and/or from reduced procollagen synthesis. In the present study, we investigated type I procollagen production in photodamaged and sun-protected human skin. Skin samples from severely sun-damaged forearm skin and matched sun-protected hip skin from the same individuals were assessed for type I procollagen gene expression by in situ hybridization and for type I procollagen protein by immunostaining. Both mRNA and protein were reduced ( approximately 65 and 57%, respectively) in photodamaged forearm skin compared to sun-protected hip skin. We next investigated whether reduced type I procollagen production was because of inherently reduced capacity of skin fibroblasts in severely photodamaged forearm skin to synthesize procollagen, or whether contextual influences within photodamaged skin act to down-regulate type I procollagen synthesis. For these studies, fibroblasts from photodamaged skin and matched sun-protected skin were established in culture. Equivalent numbers of fibroblasts were isolated from the two skin sites. Fibroblasts from the two sites had similar growth capacities and produced virtually identical amounts of type I procollagen protein. These findings indicate that the lack of type I procollagen synthesis in sun-damaged skin is not because of irreversible damage to fibroblast collagen-synthetic capacity. It follows, therefore, that factors within the severely photodamaged skin may act in some manner to inhibit procollagen production by cells that are inherently capable of doing so. Interactions between fibroblasts and the collagenous extracellular matrix regulate type I procollagen synthesis. In sun-protected skin, collagen fibrils exist as a highly organized matrix. Fibroblasts are found within the matrix, in close apposition with collagen fibers. In photodamaged skin, collagen fibrils are shortened, thinned, and disorganized. The level of partially degraded collagen is approximately 3.6-fold greater in photodamaged skin than in sun-protected skin, and some fibroblasts are surrounded by debris. To model this situation, skin fibroblasts were cultured in vitro on intact collagen or on collagen that had been partially degraded by exposure to collagenolytic enzymes. Collagen that had been partially degraded by exposure to collagenolytic enzymes from either bacteria or human skin underwent contraction in the presence of dermal fibroblasts, whereas intact collagen did not. Fibroblasts cultured on collagen that had been exposed to either source of collagenolytic enzyme demonstrated reduced proliferative capacity (22 and 17% reduction on collagen degraded by bacterial collagenase or human skin collagenase, respectively) and synthesized less type I procollagen (36 and 88% reduction, respectively, on a per cell basis). Taken together, these findings indicate that 1) fibroblasts from photoaged and sun-protected skin are similar in their capacities for growth and type I procollagen production; and 2) the accumulation of partially degraded collagen observed in photodamaged skin may inhibit, by an as yet unidentified mechanism, type I procollagen synthesis.
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PMID:Inhibition of type I procollagen synthesis by damaged collagen in photoaged skin and by collagenase-degraded collagen in vitro. 1123 41

We have previously demonstrated that interferon-alpha2b (IFN-alpha2b) markedly depresses the expression of mRNA for type I procollagen in dermal fibroblasts. In the present study, the effect of various concentrations of IFN-alpha2b on the expression of collagenase mRNA and activity of 5'-flanking regions of collagenase promoter in dermal fibroblasts are presented. The results showed at least a 2-fold increase in the expression of collagenase mRNA in fibroblasts grown at either 70% confluency (40.9 +/- 4.6 vs. 18.5 +/- 1.6, n=4, p<0.05) or 95% confluency (24.7 +/- 6.7 vs. 4.5 +/- 1.6, n=4, p<0.05). The effects of IFN-alpha2b on collagenase mRNA stability and promoter activity were evaluated to determine the mechanism by which IFN-alpha2b increases the expression of collagenase mRNA. IFN-alpha2b-treated and untreated fibroblasts were treated with alpha-amanitin to arrest collagenase mRNA transcription, and total RNA was then harvested at 0, 3, 6, 12, and 24 h. The decay curves of collagenase mRNA as a function of time showed a greater rate of degradation for collagenase mRNA in IFN-alpha2b-treated cells relative to untreated control cells. This difference was more pronounced in cells treated with alpha-amanitin at either 12 or 24 h. To determine the regions of the collagenase promoter that might function as IFN-alpha2b responsive elements, eight different fragments of the collagenase promoter, -518, -300, -171, -161, -127, -91, -74, and -66 to +63 nucleotide (nt), were constructed in a chloramphenicol acetyltransferase (CAT) expression vector. The results of CAT activity of cells transfected with these construct identified three constructs, 171/+63, -161/+63, and -127/+63, as being responsive to IFN-alpha2b treatment in dermal fibroblasts. The CAT activity was increased 279%, 163%, and 261% in -171/+63, -161/+63, and -127/+63-transfected fibroblasts, respectively, in response to IFN-alpha2b treatment relative to untreated control. No significant increase in CAT activity was found in cells transfected with the other constructs of the collagenase promoter. A time response experiment showed a marked increase in CAT activity of cells transfected with either 127/+63 or -171/63 constructs within 6-12 hr of IFN-alpha2b treatment. In conclusion, IFN-alpha2b significantly increases the expression of collagenase mRNA in dermal fibroblasts probably through stimulation of the -127/-91 region of the collagenase promoter. Thus, this region may function as an IFN-alpha2b responsive element on collagenase promoter.
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PMID:Induction of collagenase mRNA expression in dermal fibroblasts by IFN-alpha 2b and determination of the IFN-alpha 2b responsive element on 5'-flanking regions of collagenase promoter. 1155 39

To the best of our knowledge, no study has been conducted to date to directly compare the collagen metabolism of photoaged and naturally aged human skin. In this study, we compared collagen synthesis, matrix metalloproteinase-1 levels, and gelatinase activity of sun-exposed and sun-protected skin of both young and old subjects. Using northern blot analysis, immunohistochemical stain, and Western blot analysis, we demonstrated that the levels of procollagen type I mRNA and protein in photoaged and naturally aged human skin in vivo are significantly lower than those of young skin. Furthermore, we demonstrated, by northern blot analysis, that the procollagen alpha1(I) mRNA expression of photoaged skin is much greater than that of sun-protected skin in the same individual. In situ hybridization and immunohistochemical stain were used to show that the expression of type I procollagen mRNA and protein in the fibroblasts of photoaged skin is greater than for naturally aged skin. In addition, it was found, by Western blot analysis using protein extracted from the dermal tissues, that the level of procollagen type I protein in photoaged skin is lower than that of naturally aged skin. The level of matrix metalloproteinase-1 protein and the activity of matrix metalloproteinase-2 were higher in the dermis of photoaged skin than in naturally aged skin. Our results suggest that the natural aging process decreases collagen synthesis and increases the expression of matrix metalloproteinases, whereas photoaging results in an increase of collagen synthesis and greater matrix metalloproteinase expression in human skin in vivo. Thus, the balance between collagen synthesis and degradation leading to collagen deficiency is different in photoaged and naturally aged skin.
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PMID:Modulation of skin collagen metabolism in aged and photoaged human skin in vivo. 1171 Sep 36

AIM:To investigate the mechanisms of salvianolic acid A (SA-A) against liver fibrosis in vitro.METHODS:NIH/3T3 fibroblasts were cultured routinely, and incubated with 10(-4) mol/L-10(-7)mol/L SA-A for 22h. The cell viability was assayed by (3)H proline incorporation, cell proliferation by (3)H TdR incorporation, cell collagen synthetic rate was measured with (3)H proline impulse and collagenase digestion method.The total RNA was prepared from the control cells and the drug treated cells respectively, and alpha(1) I pro-collagen mRNA expression was semi-quantitatively analyzed with RT-PCR.RESULTS:10(-4)mol/L SA-A decreased cell viability and exerted some cytotoxiciy,while 10(-5)mol/L -10(-7)mol/L SA-A did not affect cell viability, but inhibited cell proliferation significantly, and 10(-6)mol/L SA-A had the best effect on cell viability among these concentrations of drugs. 10 (-5)mol/L -10(-6)mol/L SA-A inhibited intracellular collagen synthetic rate, but no significant influence on extracellular collagen secretion. Both 10(-5)mol/L and 10(-6)mol/L SA-A could decrease alpha(1)I pro-collagen mRNA expression remarkably.CONCLUSION:SA-A had potent action against liver fibrosis. It inhibited NIH/3T3 fibroblast proliferation, intracellular collagen synthetic rate and type I procollagen gene expression, which may be one of the main mechanisms of the drug.
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PMID:Effects of salvianolic acid-A on NIH/3T3 fibroblast proliferation, collagen synthesis and gene expression. 1181 98

Three-dimensional lattices of reconstituted, polymerized type I collagen were subjected to partial hydrolysis by organ culture fluid from human skin or by various matrix metalloproteinases, including matrix metalloproteinase-1 (interstitial collagenase), -2 (72 kDa gelatinase A), -8 (neutrophil collagenase), -9 (92 kDa gelatinase B), or -13 (collagenase 3). Following partial digestion, human dermal fibroblasts were incubated on the enzyme-treated or control lattices and examined for ability to contract the collagen lattice and synthesize type I procollagen. Collagen lattices partially degraded by organ culture fluid were contracted by fibroblasts under conditions in which control collagen lattices were not. On the partially degraded collagen, fibroblasts synthesized reduced amounts of type I procollagen (approximately 70% reduction). Purified matrix metalloproteinases with collagenolytic activity duplicated the effects of the human skin organ culture fluid, although matrix metalloproteinases 8 and 13 were less efficient than matrix metalloproteinase-1 (65% vs 40% and 18% reduction in type I procollagen production for matrix metalloproteinases 1, 8, and 13, respectively). Matrix metalloproteinases 2 and 9 were without effect on intact collagen; however, when collagen lattices were subjected to digestion by a combination of matrix metalloproteinases 1 and 9, fragments produced by matrix metalloproteinase-1 were further degraded by the gelatinase. Collagen contraction and inhibition of procollagen synthesis were both reduced. Matrix metalloproteinase-2 was less effective than matrix metalloproteinase-9 in clearing matrix metalloproteinase-1-generated fragments. Matrix metalloproteinase-2 was also less effective in preventing contraction and inhibiting the downregulation of type I procollagen synthesis. These observations suggest that in the presence of high molecular weight fragments of type I collagen, type I procollagen synthesis is inhibited. As these fragments are processed further, there is less inhibition of type I procollagen production.
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PMID:Inhibition of type I procollagen production in photodamage: correlation between presence of high molecular weight collagen fragments and reduced procollagen synthesis. 1216 34


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