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1.
A series of nine procollagen samples in which the hydroxyproline content varied from <1% to 44% of the total imino acids was prepared by incubating embryonic chick tendon cells with varying concentrations of α,α′-dipyridyl, an inhibitor of proline hydroxylase. The thermal stability of these procollagen preparations was then investigated by using pepsin digestion at different temperatures as an enzymatic probe of conformation. Using this technique, the denaturation temperature of the procollagen was found to be directly proportional to the hydroxyproline content. A denaturation temperature of 23.5 °C was found for the unhydroxylated procollagen and 37.9 °C for fully hydroxylated procollagen. These results suggest that hydroxyproline is crucial to the thermal stability of the collagen triple helix. They also imply that unhydroxylated molecules are not triple helical within the cell at 37 °C and that triple helix formation may be necessary for normal secretion.  相似文献   

2.
Hydroxyproline stabilizes the triple helix of chick tendon collagen   总被引:10,自引:0,他引:10  
The thermal stability of unhydroxylated procollagen relative to hydroxylated procollagen was investigated using pepsin digestion at various temperatures in the interval 15° to 35° as an enzymatic probe of conformation. The results demonstrate that the unhydroxylated molecules thermally denature between 20° and 25°, while the hydroxylated molecules are stable at least to 35°. This finding suggests that the presence of hydroxyproline in the molecule contributes significantly to the thermal stability of collagen. The results also suggest that triple strand formation may be required for normal secretion.  相似文献   

3.
Embryonic-chick tendon poly(A)-containing RNA was translated in the wheat-germ and mRNA-dependent rabbit reticulocyte-lysate systems. The ability of each system to synthesize polypeptides similar to pro-alpha chains of collagen was tested on the bases of electrophoretic mobility and susceptibility to highly purified bacterial collagenase. Very small amounts of polypeptides in the size range of pro-alpha chains were synthesized in the wheat-germ system, whereas efficient synthesis of two polypeptides similar to pro-alpha1 and pro-alpha2 chains was achieved in the reticulocyte lysate. The collagenous nature of the major high-molecular-weight products synthesized was demonstrated by their susceptibility to collagenase and ability to act as a substrate for purified collagen proline hydroxylase. Determinations of the relative amounts of these translation products suggest that the 2:1 ratio of pro-alpha1 and pro-alpha2 chains found in type I procollagen is reflected in proportional amounts of translatable mRNA for pro-alpha1 and pro-alpha2 chains. Comparisons of the electrophoretic mobilities of hydroxylated and unhydroxylated reticulocyte-lysate translation products were made with appropriate standards of hydroxylated and unhydroxylated procollagen polypeptides. The results suggest that, in common with a number of secreted proteins, procollagen is synthesized as pre-pro molecules consistent with the ;Signal Hypothesis'.  相似文献   

4.
Collagen is a potent adhesive substrate for cells, an event essentially mediated by the integrins alpha 1 beta 1 and alpha 2 beta 1. Collagen fibrils also bind to the integrin alpha 2 beta 1 and the platelet receptor glycoprotein VI to activate and aggregate platelets. The distinct triple helical recognition motifs for these receptors, GXOGER and (GPO)n, respectively, all contain hydroxyproline. Using unhydroxylated collagen I produced in transgenic plants, we investigated the role of hydroxyproline in the receptor-binding properties of collagen. We show that alpha 2 beta 1 but not alpha 1 beta 1 mediates cell adhesion to unhydroxylated collagen. Soluble recombinant alpha 1 beta 1 binding to unhydroxylated collagen is considerably reduced compared with bovine collagens, but binding can be restored by prolyl hydroxylation of recombinant collagen. We also show that platelets use alpha 2 beta 1 to adhere to the unhydroxylated recombinant molecules, but the adhesion is weaker than on fully hydroxylated collagen, and the unhydroxylated collagen fibrils fail to aggregate platelets. Prolyl hydroxylation is thus required for binding of collagen to platelet glycoprotein VI and to cells by alpha 1 beta 1. These observations give new insights into the molecular basis of collagen-receptor interactions and offer new selective applications for the recombinant unhydroxylated collagen I.  相似文献   

5.
Ascorbic acid stimulates secretion of type I collagen because of its role in 4-hydroxyproline synthesis, but there is some controversy as to whether secretion of type IV collagen is similarly affected. This question was examined in differentiated F9 cells, which produce only type IV collagen, by labeling proteins with [14C]proline and measuring collagen synthesis and secretion. Hydroxylation of proline residues in collagen was inhibited to a greater extent in cells treated with the iron chelator α,α′-dipyridyl (97.7%) than in cells incubated without ascorbate (63.1%), but both conditions completely inhibited the rate of collagen secretion after 2–4 h, respectively. Neither treatment affected laminin secretion. Collagen synthesis was not stimulated by ascorbate even after treatment for 2 days. On SDS polyacrylamide gels, collagen produced by α,α′-dipyridyl-treated cells consisted mainly of a single band that migrated faster than either fully (+ ascorbate) or partially (− ascorbate) hydroxylated α1(IV) or α2(IV) chains. It did not contain interchain disulfide bonds or asn-linked glycosyl groups, and was completely digested by pepsin at 15°C. These results suggested that it was a degraded product lacking the 7 S domain and that it could not form a triple helical structure. In contrast, the partially hydroxylated molecule contained interchain disulfide bonds and it was cleaved by pepsin to collagenous fragments similar in size to those obtained from the fully hydroxylated molecule, but at a faster rate. Kinetic experiments and monensin treatment suggested that completely unhydroxylated type IV collagen was degraded intracellularly in the endoplasmic reticulum or cis Golgi. These studies indicate that partial hydroxylation of type IV collagen confers sufficient helical structure to allow interchain disulfide bond formation and resistance to pepsin and intracellular degradation, but not sufficient for optimal secretion. J Cell. Biochem. 67:338–352, 1997. Published 1997 Wiley-Liss, Inc.  相似文献   

6.
We have studied the folding, processing, and association with two endoplasmic reticulum (ER) resident proteins of the abnormal type I procollagen molecules produced by a strain of fibroblasts harboring a 4.5 kilobase deletion in an allele of COL1A2 (Willing, M. C., Cohn, D.H., Starman, B. Holbrook, K.A., Greenberg, C.R., and Byers, P.H. (1988) J. Biol. Chem. 263, 8398-8404). By sequencing cDNA, we found that the mutant allele encodes pro alpha 2(I) chains that are shortened by 180 amino acids but retain the Gly-X-Y repeat pattern crucial for collagen triple helix formation. The type I procollagen molecules that incorporated the shortened chain were retained intracellularly and were stable. The triple helical domain in these molecules did not attain a normal conformation and remained accessible to posttranslational modifying enzymes amino-terminal to the deletion site for a prolonged period. The abnormal molecules folded into a triple helical conformation more slowly than the normal molecules, and the amino-terminal ends of the pro alpha 1(I) chains failed to become protease-resistant. While the abnormal procollagen molecules were not bound by the ER-resident protein BiP, they stably associated with protein disulfide isomerase, the beta-subunit of prolyl-4-hydroxylase. These results indicate that some mutations in type I collagen genes both transiently delay folding and permanently disrupt the structure of the triple helix and suggest that binding to prolyl-4-hydroxylase helps to retain certain abnormal procollagen molecules within the ER.  相似文献   

7.
Cultured dermal fibroblasts from an infant with the lethal perinatal form of osteogenesis imperfecta (type II) synthesize normal and abnormal forms of type I procollagen. The abnormal type I procollagen molecules are excessively modified during their intracellular stay, have a lower than normal melting transition temperature, are secreted at a reduced rate, and form abnormally thin collagen fibrils in the extracellular matrix in vitro. Overmodification of the abnormal type I procollagen molecules was limited to the NH2-terminal three-fourths of the triple helical domain. Two-dimensional mapping of modified and unmodified alpha chains of type I collagen demonstrated neither charge alterations nor large insertions or deletions in the region of alpha 1(I) and alpha 2(I) in which overmodification begins. Both the structure and function of type I procollagen synthesized by cells from the parents of this infant were normal. The simplest interpretation of the results of this study is that the osteogenesis imperfecta phenotype arose from a new dominant mutation in one of the genes encoding the chains of type I procollagen. Given the requirement for glycine in every third position of the triple helical domain, the mutation may represent a single amino acid substitution for a glycine residue. These findings demonstrate further heterogeneity in the biochemical basis of osteogenesis imperfecta type II and suggest that the nature and location of mutations in type I procollagen may determine phenotypic variation.  相似文献   

8.
Subunit structure of wheat germ agglutinin   总被引:6,自引:0,他引:6  
Cells isolated by enzymic digestion of embryonic tendon were incubated under N2 so that they synthesized and accumulated the unhydroxylated form of procollagen which is known as protocollagen and which is largely comprised of pro-α chains linked by interchain disulfide bonds. The cells were then exposed to O2 so that the intracellular protocollagen was hydroxylated and secreted as procollagen. When the hydroxylation was allowed to proceed at 31° or 34°, the procollagen secreted into the medium was triple-helical but its hydroxyproline content was less than two-thirds and its hydroxylysine content was less than half the control. Even when the hydroxylation was allowed to occur at 37°, the procollagen secreted by the cells was under-hydroxylated by about 15% in terms of its hydroxyproline content and about 45% in terms of its hydroxylysine content. The results may have consequences for collagen synthesis by tendons and similar tissues in vivo, since temporary anoxia in such tissues may well lead to the synthesis of a less stable procollagen or to fibers of decreased tensile strength.  相似文献   

9.
The effects of ascorbic acid on collagen biosynthesis were studied in primary cultures of fibroblasts from chick embryo tendons. Addition of ascorbate to the cultures increased the rate of synthesis of procollagen hydroxyproline, but the effect was not explained by activation of prolyl hydroxylase as has been seen in other cell cultures. Instead the increase in the rate of hydroxyproline synthesis appeared to be the result of some direct cofactor effect of the vitamin. In the presence of ascorbate, most of the newly synthesized procollagen was hydroxylated and became triple helical. In the absence of ascorbate, the overall degree of hydroxylation in newly synthesized procollagen was reduced, but a small fraction of newly synthesized procollagen was near-maximally hydroxylated and became triple helical. When cultures were exposed to ascorbic acid for more than 6 h, there was an increase in rate of protein synthesis, rate of procollagen synthesis, and fraction of membrane-bound ribosomes. The increases in these parameters in the presence of ascorbate appeared to be a secondary effect produced by the accumulation of stable triple-helical procollagen in the culture system.  相似文献   

10.
We have studied a patient with severe, dominantly inherited Ehlers-Danlos syndrome type IV. The results indicate that this patient carries a deletion of 3.3 kilo-base pairs in the triple helical coding domain of one of the two alleles for the pro-alpha-chains of type III collagen (COL3A1). His cultured skin fibroblasts contain equal amounts of normal length mRNA and of mRNA shortened by approximately 600 bases, and synthesize both normal and shortened pro-alpha 1(III)-chains. In procollagen molecules containing one or more shortened chains, a triple helix is formed with a length of only about 780 amino acids. The mutant procollagen molecules have decreased thermal stability, are less efficiently secreted, and are not processed as their normal counterpart. The deletion in this family is the first mutation to be described in COL3A1.  相似文献   

11.
Matrix-free cells from embryonic tendons were incubated under conditions in which they synthesized and accumulated protocollagen, the unhydroxylated form of procollagen, which is non-helical at 37°. Limited digestion with pepsin demonstrated that when the accumulated protocollagen was hydroxylated intracellularly to procollagen, or when the cells were cooled below the Tm of protocollagen, the protein became triple-helical in about 5 min, or in a fraction of the time required for isolated α chains to become helical. When disulfide bonds in the NH2-terminal extensions of protocollagen were reduced by treating the cells with dithiothreitol, the rate of helix formation was markedly decreased. The results demonstrated that the NH2-terminal extensions found in protocollagen and procollagen play an important role in formation of the triple-helix during biosynthesis.  相似文献   

12.
To explore further the recent demonstration that hydroxyproline stabilizes the triple-helical structure of collagen, two peptides containing allohydroxyproline, (aHyp-Pro-Gly)10 and (Pro-aHyp-Gly)10, were synthesized by a modified Merrifield technique which yields products of defined molecular weight. Examination of the peptides by optical rotation and circular dichroism showed that neither of them formed triple-helical structures in aqueous solution. Since the peptides had less tendency than (Pro-Hyp-Gly)10 to become helical, the results demonstrated that the trans-4-hydroxyl group of hydroxyproline makes a specific contribution to stability of the triple helix formed by (Pro-Hyp-Gly)10. Since the peptides also had less tendency than (Pro-Pro-Gly10 to become helical, the results further demonstrated that the cis-4-hydroxyl group on allohydroxyproline decreases the stability of the triple helix. The observations provided direct support for previous data indicating that incorporation of proline analogues such as allohydroxyproline into pro-alpha chains during procollagen biosynthesis prevents the polypeptides from becoming triple helical.  相似文献   

13.
Hydroxynorvaline (DL-alpha-amino-beta-hydroxyvaleric acid) was shown to competitively inhibit the activation of threonine and valine when tested with tRNA and synthetases prepared from whole chick embryos. However, the hydroxynorvaline was transferred only to threonyl-tRNA and not valyl-tRNA. The hydroxynorvaline had no effect when tested with other amino acids. The Km for threonine was 25 muM and the Ki for hydroxynorvaline was 181 muM. When fibroblasts from embryonic chick tendons were incubated with [3H]threonine and increasing concentrations of hydroxynorvaline, there was a progressive decrease in the incorporation of [3H]threonine so that 1 mM hydroxynorvaline the incorporation into nondialyzable protein was 26% of the control value. A much smaller decrease in the incorporation of other radioactive amino acids was observed. When the cells were incubated hith [14C]proline and 1 mM hydroxynorvaline, the labeled procollagen containing hydroxynorvaline accumulated intracellularly and very little was secreted. Control experiments demonstrated that free hydroxynorvaline did not inhibit the secretion of unsubstituted procollagen. Although the individual pro alpha chains containing hydroxynorvaline were of normal molecular weight (125,000) and hydroxyproline content, only about 50% of this intracellularly retained procollagen was triple helical within the cell as 37 degrees as measured by sensitivity to pepsin digestion. Also only approximately 50% of the pro alpha chains were disulfide-linked to form triple stranded molecules as compared to greater than 85% linkage in unsubstituted procollagen. We postulate that incorporation of hydroxynorvaline alters the conformation of the propeptide extension sufficiently so that: (a) normal assembly of disulfide-linked, triple helical molecules is reduced and (b) assembled triple helical molecules are not properly recognized by the secretory mechanism.  相似文献   

14.
Folding of carboxyl domain and assembly of procollagen I   总被引:3,自引:0,他引:3  
An early form of procollagen I was found in acetic acid extracts of radioactively labeled chick embryo skull bones. It resembled native procollagen I, but sedimented slightly faster, and its component chains were slightly underhydroxylated and were not disulfide-linked to each other, although its propeptides were internally disulfide-bonded. Pulse-chase experiments showed its conversion to disulfide-linked procollagen. As the same conversion occurred when proline hydroxylation was blocked by 2,2'-dipyridyl, we infer that the formation of this precursor from its component chains does not require collagen triple helix formation. We suggest that interaction between the folded carboxyl propeptides of individual pro-alpha (I) chains is an important step in the formation of this precursor and of procollagen I. Studies of the refolding and association of fully reduced and denatured carboxyl propeptides supported this concept. In the presence of glutathione the correct disulfide bonds could be reestablished, as judged by a mapping of some tryptic peptides. Individual carboxyl propeptides refolded first, and this occurred even in 2 M urea. Recognition between folded carboxyl propeptides occurred only when less than 0.5 M urea was present. The presence of the carboxyl telopeptides was important for trimeric reassembly. Individual propeptides also folded spontaneously during cell-free translation of pro-alpha (I) chains and were recognized by specific antibodies. We consider the role of carboxyl propeptides in the formation of procollagen I molecules and suggest a model of self-assembly, possibly facilitated by interactions with the luminal surface of the rough endoplasmic reticulum.  相似文献   

15.
Transformed Syrian hamster embryo (NQT-SHE) fibroblasts do not synthesize the pro-alpha 1 subunit of type I procollagen, but secrete two modified forms of the pro-alpha 2(I) subunit that migrate more slowly than the normal chain during gel electrophoresis (Peterkofsky, B., and Prather, W. (1986) J. Biol. Chem. 261, 16818-16826). By electrophoretic analysis of cyanogen bromide and V8 protease-derived peptides from the collagenous domains of intra- and extracellular pro-alpha 2(I) chains, we find that the modification occurs almost exclusively in secreted molecules, is located in the region spanned by the cyanogen bromide peptide CB3,5, and persists when hydroxylation is inhibited. Thus, modification is due to a post-translational reaction other than hydroxylation. The modified chains appear to be secreted in the denatured state since: 1) helical structures formed at 4 degrees C under acidic conditions were unstable under neutral conditions at 37 degrees C; 2) conditions that destabilize the type I procollagen helix and thus inhibit its secretion, i.e. inhibition of proline hydroxylation or incorporation of the proline analog cis-hydroxyproline, did not affect secretion of the modified chains. The time courses for secretion of nonhelical modified chains from NQT-SHE and of hydroxylated helical procollagen I from control cells, as a proportion of total collagen synthesized, were similar. Although cis-hydroxyproline did not inhibit the secretion of the modified chains, it induced their rapid intracellular degradation.  相似文献   

16.
HSP47 is a molecular chaperone that plays an unknown role during the assembly and transport of procollagen. Our previous studies showed that, unlike most chaperones, HSP47 interacts with a correctly folded substrate. We suggested that HSP47 either stabilizes the correctly folded collagen helix from heat denaturation or prevents lateral aggregation prior to its transport from the endoplasmic reticulum. In this study we have addressed the role of triple helix stability in the binding of HSP47 to procollagen by expressing procollagen molecules with differing thermal stabilities and analyzing their ability to interact with HSP47 within the endoplasmic reticulum. Our results show that HSP47 interacts with thermostable procollagen molecules, suggesting that helix stabilization is not the primary function of HSP47 and that the interaction of HSP47 with procollagen depends upon the presence of a minimum of one Gly-X-Arg triplet within the triple helical domain. Interestingly, procollagen chains containing high proportions of stabilizing triplets formed triple helices and interacted with HSP47 even in the absence of proline hydroxylation, demonstrating that recognition does not depend upon this modification. Our results support the view that HSP47 functions early in the secretory pathway by preventing the lateral aggregation of procollagen chains.  相似文献   

17.
Embryonic chick fibroblasts were incubated with [14C]proline and puromycin in the low concentrations of 1 to 3 mug/ml. The molecular weight of the synthesized procollagen chains, as measured by polyacrylamide gel electrophoresis in sodium dodecyl sulfate, was progressively reduced by increasing concentrations of puromycin in this range. For example, at 3 mug/ml the great majority of the [14C]proline was contained in procollagen chains having an average molecular weight of about 95,000 instead of the control value of 125,000. Associated with this decrease in molecular weight there was a marked decrease in the incorporation of cysteine although [14C]proline incorporation was relatively unaffedted. Disulfide bond formation was drastically inhibited as was triple helix formation as measured by resistance of the procollagen to pepsin digestion. Although the shortened procollagen chains were of normal hydroxyproline content, they nevertheless were secreted much more slowly than normal procollagen. Based upon these findings, we postulate that: (a) low concentrations of puromycin terminate procollagen chains before a COOH-terminal extension is completed, (b) these COOH-terminal extensions are required for normal assembly of the three individual procollagen chains and for triple helix formation, and (c) only assembled, triple helical procollagen molecules are selected for normal secretion.  相似文献   

18.
We characterized a de novo 4.5 kilobase pair deletion in the paternally derived alpha 2(I) collagen allele (COL1A2) from a patient with perinatal lethal osteogenesis imperfecta. The intron-to-intron deletion removed the seven exons which encode residues 586-765 of the triple helical domain of the chain. Type I procollagen molecules that contain the mutant pro-alpha 2(I) chain have a lower than normal thermal stability, undergo increased post-translational modification amino-terminal to the deletion junction, and are retained within the rough endoplasmic reticulum. The block to secretion appears to result from improper assembly of the triple helix, apparently a consequence of a disruption of charge-charge interactions between the shortened pro-alpha 2(I) chain and normal pro-alpha 1(I) chains. The lethal effect may be due to decreased secretion of normal collagen and secretion of a small amount of abnormal collagen that disrupts matrix formation.  相似文献   

19.
Summary We have screened type I procollagen synthesized in vitro by skin fibroblasts from several patients with the severe non-lethal form of osteogenesis imperfecta. Cells from one patient synthesized and secreted both normal and a larger amount of abnormal type I procollagen. The abnormal alpha chains are larger in size due to post-translational overmodifications involving the whole triple helical domain. Abnormal collagen heterotrimers had a melting temperature 2.5°–3°C lower than normal ones or from controls. Chemical analysis of collagen in the medium showed a greater degree of both lysyl hydroxylation and hydroxylysyl glycosylation, the major increase in molecular mass of overmodified alpha chains being due to the higher hydroxylysine-bound hexose content. The proband's cells modify proteoglycan metabolism and mineral proband's cells modify proteoglycan metabolism and mineral crystals form in the dermis, possibly a response to abnormal collagen-proteoglycan interactions. These findings can be explained by a small defect in the product of one allele for pro-1(I) chains: three-quarters of the synthesized type I procollagen molecules are composed of trimers containing one or two chains defective near the C-terminus of the triple helix or in the C-propeptide. The data obtained for this patient confirmed that the severity of clinical manifestations in osteogenesis imperfecta strongly depends on the location and nature of the mutations, and that the phenotype could be a consequence of a collagen defect(s) and its influence on collagen-collagen interactions and collagen interactions with other connective tissue components.  相似文献   

20.
We have identified an infant with the perinatal lethal form of osteogenesis imperfecta (type II) whose cells synthesize in equal amounts two different pro alpha 1(I) chains of type I procollagen: one chain is normal in length, the other contains an insertion of approximately 50-70 amino acid residues within the triple helical domain defined by amino acids 123-220. The structure of the insertion is consistent with duplication of an approximately 600-base pair segment in one allele of the alpha 1(I) gene (COL1A1). These cells synthesize normal type I procollagen molecules as well as molecules that contain one or two mutant chains. Unlike type I procollagen molecules synthesized by cells from most other infants with osteogenesis imperfecta type II which contain increased lysyl hydroxylation and hydroxylysyl glycosylation along the triple helical domain, the abnormal molecules synthesized by these cells are not overmodified. The lethal effect of this mutation may result from secretion of about one-quarter the normal amount of normal type I procollagen and secretion of a large amount of a molecule which has a lowered melting temperature, is extended asymmetrically, and which has altered structure in domains important for cross-link formation and bone mineralization.  相似文献   

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