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Studies on type I procollagen produced by skin fibroblasts cultured from twins with lethal type II of osteogenesis imperfecta (OI) showed that biosynthesis of collagen (measured by L-[5-(3)H]proline incorporation into proteins susceptible to the action of bacterial collagenase) was slightly increased as compared to the control healthy infant. SDS/PAGE showed that the fibroblasts synthesized and secreted only normal type I procollagen. Electrophoretic analysis of collagen chains and CNBr peptides showed the same pattern of electrophoretic migration as in the controls. The lack of posttranslational overmodification of the collagen molecule suggested a molecular defect near the amino terminus of the collagen helix. Digestion of OI type I collagen with trypsin at 30 degrees C for 5 min generated a shorter than normal alpha2 chain which melted at 36 degrees C. Direct sequencing of an asymmetric PCR product revealed a heterozygous single nucleotide change C-->G causing a substitution of histidine by aspartic acid in the alpha2 chain at position 92. Pericellular processing of type I procollagen by the twin's fibroblasts yielded a later appearance of the intermediate pC-alpha1(I) form as compared with control cells.  相似文献   

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The enzymatic conversion of chick embryo cranial bone procollagen was studied in vitro using procollagen proteases isolated from the culture medium of chick tendon fibroblasts. During the normal conversion process, chains intermediate in length between proα and α chains, as well as the COOH-terminal extension peptides, can be identified. Underglycosylated procollagen, synthesized by bones treated with an inhibitor of protein glycosylation (tunicamycin), was processed by these proteases in a manner similar to that of intact procollagen. However, medium from cells cultured with tunicamycin lacked the COOH-terminal procollagen protease activity; this did not result from a direct inhibition of the protease by the drug. Concanavalin A also inhibited the conversion of procollagen to collagen by fibroblasts in culture. In an in vitro system, Concanavalin A inhibited the COOH-terminal procollagen protease, and this inhibition was reversed by methyl-α-d-glucopyranoside. These data suggest that the COOH-terminal procollagen protease contains oligosaccharide side chains that are recognized by concanavalin A and that tunicamycin affects the secretion, activity, or activation of the enzyme.  相似文献   

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Excessive production of extracellular matrix is responsible for clinical manifestations of fibroproliferative disorders and drugs which can inhibit excessive synthesis of type I collagen are needed for the therapy. Several dicationic diphenylfurans were synthesized and were found to bind RNA. Two of these type compounds were able to reduce synthesis of type I collagen by human fibroblasts and human activated hepatic stellate cells (HSCs). Activated HSCs are responsible for collagen production in liver fibrosis. When added at 40 microM compound 588 reduced intracellular level and secretion of procollagen alpha1(I) by 50%, while compound 654 reduced these parameters by more than 80% at 20 microM. 654 also significantly reduced secretion of fibronectin. Toxic effects were observed at 80 microM for 588 and 40 microM for 654. 654 reduced expression of a reporter gene with collagen signal peptide, while expression of the same gene without signal peptide was unaffected. Also, expression of intracellular proteins tubulin and calnexin was unchanged. 654 accumulated inside the cell in the cytoplasm and did not change the steady-state level of collagen mRNAs. Treatment of cells with proteosome inhibitor MG132 did not change the inhibitory effect of 654, suggesting that 654 acts as suppressor of translation of proteins containing a signal peptide. Most secreted proteins of fibroblasts and activated HSCs are components of extracellular matrix. Therefore inhibition of their production, as shown here for procollagen alpha1(I) and fibronectin, may be a useful property of some of diphenylfurans, making these compounds a basis for development of antifibrotic drugs.  相似文献   

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Fibrillar collagen is the primary component of the cardiac interstitial extracellular matrix. This extracellular matrix undergoes dramatic changes from birth to adulthood and then into advanced age. As evidence, fibrillar collagen content was compared in sections from neonates, adult, and old hearts and was found to increase at each respective age. Cardiac fibroblasts are the principle cell type that produce and control fibrillar collagen content. To determine whether fibroblast production, processing, and deposition of collagen differed with age, primary cardiac fibroblasts from neonate, adult, and old mice were isolated and cultured in 3-dimensional (3D) fibrin gels. Fibroblasts from each age aligned in fibrin gels along points of tension and deposited extracellular matrix. By confocal microscopy, wild-type neonate fibroblasts appeared to deposit less collagen into fibrillar structures than fibroblasts from adults. However, by immunoblot analysis, differences in procollagen production and processing of collagen I were not detected in neonate versus adult fibroblasts. In contrast, fibroblasts from old mice demonstrated increased efficiency of procollagen processing coupled with decreased production of total collagen. SPARC is a collagen-binding protein previously shown to affect cardiac collagen deposition. Accordingly, in the absence of SPARC, less collagen appeared to be associated with fibroblasts of each age grown in fibrin gels. In addition, the increased efficiency of procollagen alpha 1(I) processing in old wild-type fibroblasts was not detected in old SPARC-null fibroblasts. Increased levels of fibronectin were detected in wild-type neonate fibroblasts over that of adult and old fibroblasts but not in SPARC-null neonate fibroblasts versus older ages. Immunostaining of SPARC overlapped with that of collagen I but not to that of fibronectin in 3D cultures. Hence, whereas increases in procollagen processing, influenced by SPARC expression, plausibly contribute to increased collagen deposition in old hearts, other cellular mechanisms likely affect differential collagen deposition by neonate fibroblasts.  相似文献   

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NH2-terminal extension peptides of type I and type III procollagens were isolated from dermatosparactic and normal fetal calfskin, respectively. Cell culture experiments showed that the globular domains of the tested procollagen peptides were biologically active but that peptides from the helical region of collagen had no effect. The peptides were added to the incubation medium of calf fibroblasts along with radioactive precursor amino acids, and the amount of newly synthesized collagen was determined. The experiments indicated that procollagen peptides exerted a feedback-like inhibitory effect specific for the synthesis of collagen. Neither degradation of collagen, hydroxylation of collagen alpha chains, nor synthesis of noncollagenous proteins were affected. Synthesis of type II collagen by calf chondrocytes was not reduced. In addition, it was shown that procollagen peptides from calf were equally effective when added to human fibroblast cultures, an observation that could be of considerable medical interest.  相似文献   

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J M Burke  G Balian  R Ross  P Bornstein 《Biochemistry》1977,16(14):3243-3249
Analysis of pepsin-resistant proteins produced in culture by monkey aortic smooth muscle cells (SMC) indicates the synthesis of types I and III collagen. As determined by carboxymethylcellulose chromatography and disc gel electrophoresis, SMC cultures synthesize more type III collagen than monkey skin fibroblast cultures; aortic adventitial cell cultures (a mixture of SMC and fibroblasts) synthesize an intermediate amount of type III collagen. Both types I and III procollagens can also be isolated from the culture medium of SMC and skin fibroblasts. The procollagens were separated by diethylaminoethylcellulose (DEAE-cellulose) chromatography in identified by electrophoresis and after cleavage with pepsin and cyanogen bromide. Quantitation of the procollagen by DEAE-cellulose chromatography suggests that 68% of the SMC procollagens and less than 10% of the skin fibroblast procollagens are type III. On the other hand, estimation of the proportions of collagen types secreted by cells, employing pepsin digestion of cell culture medium at 15 degrees C, leads to an underestimation of the amount of type III collagen relative to type I. SMC and fibroblasts may differ in their ability to convert type I procollagen to collagen ad indicated by the observation that skin fibroblast culture medium contains both pN and pC collagen intermediates after 24 h, while cultures of SMC essentially lack the pC collagen intermediates.  相似文献   

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Regulation of the synthesis of procollagen and other extracellular matrix components was examined in human skin fibroblasts obtained from donors of various ages, from fetal to 80 years old (in vivo aged), and in fetal fibroblasts at varying passage levels (in vitro aged). Growth rates and saturation densities of fibroblasts decreased with increasing age of the donor and after passage 20 of fetal fibroblasts. The rates of collagen and proteoglycan synthesis also decreased during both types of aging to about 10-25% of the rate in early passage fetal fibroblasts, whereas the synthesis of total noncollagenous proteins was not greatly affected. Decreased collagen synthesis in both types of aging was correlated with lower steady-state levels of mRNAs for the two subunits of type I procollagen mRNA, although their regulation was not coordinate. Type III collagen mRNA levels also declined in both types of aging. The concentration of fibronectin mRNA also decreased during in vitro aging but more rapidly than the collagen mRNAs, whereas in fibroblasts from 51-80-year-old donors, it was similar to or higher than in early passage fetal fibroblasts. This study suggests that the decreased synthesis of procollagen and proteoglycans in in vivo aged fibroblasts represents changes that are responsible for intrinsic degenerative changes that occur in human skin during aging. Furthermore, although in vitro and in vivo aging were similar in many respects, they were not equivalent, as evidenced by the differences in regulation of fibronectin expression.  相似文献   

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Whole chick embryo fibroblasts were infected with the Prague wild type Rous sarcoma virus and with a temperature sensitive mutant of this strain, RSVtsLA24. Normal fibroblasts and fibroblasts infected with the temperature-sensitive mutant and cultured at the nonpermissive temperature-sensitive mutant and cultured at the nonpermissive temperature, secreted procollagen into the medium and incorporated collagen into their extracellular matrix. On the other hand, transformed fibroblasts and fibroblasts infected with the temperature-sensitive mutant and cultured at the permissive temperature, were able to secrete procollagen into the medium, but there was no evidence that they were able to convert procollagen to collagen and incorporate collagen into an extracellular matrix. The inability of the infected cells to incorporate collagen into an extracellular matrix was found to be a result of transformation rather than of virus production in these cells.  相似文献   

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The effects of interferon-alpha and interferon-gamma on collagen synthesis and mRNA levels of type I and type III procollagens were studied in skin fibroblasts cultured from affected and unaffected skin sites of two patients with localized scleroderma (morphea). Both scleroderma cell lines exhibited elevated type I and type III procollagen mRNA levels to account for the increased procollagen synthesis, when compared to the unaffected controls. Interferon-gamma treatment resulted in a dose-dependent reduction in collagen synthesis and procollagen mRNA levels in scleroderma fibroblasts. A 72-h exposure to interferon-gamma reduced procollagen mRNA levels in the scleroderma fibroblast lines to the levels exhibited by the unaffected control fibroblasts. The suppressive effect of interferon-alpha on procollagen mRNA levels was somewhat weaker than that of interferon-gamma. The results suggest potential use of interferon-gamma in treatment and prevention of human fibrotic conditions.  相似文献   

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Metabolic functions of fibroblasts are tightly regulated by the extracellular environment. When cultivated in tridimensional collagen lattices, fibroblasts exhibit a lowered activity of protein synthesis, especially concerning extracellular matrix proteins. We have previously shown that extracellular collagen impaired the processing of ribosomal RNA (rRNA) in nucleoli by generating changes in the expression of nucleolar proteins and a premature degradation of neosynthesized rRNA. In this study, we have investigated whether inhibiting the synthesis of fibrillarin, a major nucleolar protein with decreased expression in collagen lattices, could mimic the effects of extracellular matrix. Monolayer-cultured fibroblasts were transfected with anti-fibrillarin antisense oligodeoxynucleotides, which significantly decreased fibrillarin content. Downregulation of fibrillarin expression inhibited procollagen secretion into the extracellular medium, without altering total collagen production. No changes of pro1(I)collagen mRNA expression or proline hydroxylation were found. A concomitant intracellular retention of collagen and its chaperone protein HSP47 was found, but no effect on the production of other extracellular matrix macromolecules or remodelling enzymes was observed. These data show that collagen processing depends on unknown mechanisms, involving proteins primarily located in the nucleolar compartment with other demonstrated functions, and suggest specific links between nucleolar machinery and extracellular matrix.  相似文献   

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In cultures of dermal fibroblasts, procollagen and the intermediates pC- and pN-collagen accumulated in the culture medium with little further processing to collagen. When polyethylene glycol (PEG) or other neutral polymers were added to fibroblast culture medium, no collagen or procollagen was found in the medium, but all the collagen was associated with the cell layer. The type I procollagen was fully processed to collagen with an initial transient accumulation of pN-collagen, and the processed collagen formed covalently cross-linked dimers. The presence of pepsin-sensitive COOH-terminal telopeptides and the accumulation of pN-collagen in PEG-treated cultures of dermatosparactic fibroblasts indicated that it was likely that processing occurred via the correct in vivo propeptidase activities. At the levels used in this study, PEG did not have any toxic effect during the incubation period on the fibroblasts in culture, since the amount of total protein synthesis was not altered by addition of PEG to cultures. However, the level of collagen production was reduced to about half, indicating that there was increased degradation or that the released collagen propeptides or the accumulation of processed collagen in association with the cells exerted a feedback regulation on collagen synthesis. Addition of neutral polymers to the culture medium provided a simple means of achieving complete and accurate processing of procollagen which more closely resembled the in vivo process.  相似文献   

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Type II procollagen messenger ribonucleic acid (mRNA) was isolated from chick sternum and rat chondrosarcoma cells and translated in a reticulocyte lysate cell-free system. A high molecular weight band was identified as type II procollagen by gel electrophoresis, collagenase digestion, and specific immunoprecipitation. The translation of type II mRNA was specifically inhibited by addition of type I procollagen amino-terminal extension peptide. When this peptide was added to the media of cultured fetal calf chondrocytes, chick sternal chondrocytes, or chick tendon fibroblasts, no inhibition of collagen synthesis was evident. These data suggest a general regulation of collagen biosynthesis by these peptides in the cell-free translation system. However, as indicated by the cell culture experiments, cellular characteristics and evolutionary divergence of animal species seem to restrict the effect of the peptides.  相似文献   

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Cardiac tissue from mice that do not express secreted protein acidic and rich in cysteine (SPARC) have reduced amounts of insoluble collagen content at baseline and in response to pressure overload hypertrophy compared with wild-type (WT) mice. However, the cellular mechanism by which SPARC affects myocardial collagen is not clearly defined. Although expression of SPARC by cardiac myocytes has been detected in vitro, immunohistochemistry of hearts demonstrated SPARC staining primarily associated with interstitial fibroblastic cells. Primary cardiac fibroblasts isolated from SPARC-null and WT mice were assayed for collagen I synthesis by [(3)H]proline incorporation into procollagen and by immunoblot analysis of procollagen processing. Bacterial collagenase was used to discern intracellular from extracellular forms of collagen I. Increased amounts of collagen I were found associated with SPARC-null versus WT cells, and the proportion of total collagen I detected on SPARC-null fibroblasts without propeptides [collagen-α(1)(I)] was higher than in WT cells. In addition, the amount of total collagen sensitive to collagenase digestion (extracellular) was greater in SPARC-null cells than in WT cells, indicating an increase in cell surface-associated collagen in the absence of SPARC. Furthermore, higher levels of collagen type V, a fibrillar collagen implicated in collagen fibril initiation, were found in SPARC-null fibroblasts. The absence of SPARC did not result in significant differences in proliferation or in decreased production of procollagen I by cardiac fibroblasts. We conclude that SPARC regulates collagen in the heart by modulating procollagen processing and interactions with fibroblast cell surfaces. These results are consistent with decreased levels of interstitial collagen in the hearts of SPARC-null mice being due primarily to inefficient collagen deposition into the extracellular matrix rather than to differences in collagen production.  相似文献   

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