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: UNIPROT:Q07644 (polypeptide)
72,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Prolyl 4-hydroxylase (EC 1.14.11.2) catalyzes the posttranslational formation of 4-hydroxyproline in collagens. The vertebrate enzyme is an alpha 2 beta 2 tetramer, the beta subunit of which is a highly unusual multifunctional polypeptide, being identical to protein disulfide-isomerase (EC 5.3.4.1). We report here the cloning of a second mouse alpha subunit isoform, termed the alpha (II) subunit. This polypeptide consists of 518 aa and a signal peptide of 19 aa. The processed polypeptide is one residue longer than the mouse alpha (I) subunit (the previously known type), the cloning of which is also reported here. The overall amino acid sequence identity between the mouse alpha (II) and alpha (I) subunits is 63%. The mRNA for the alpha (II) subunit was found to be expressed in a variety of mouse tissues. When the alpha (II) subunit was expressed together with the human protein disulfide-isomerase/beta subunit in insect cells by baculovirus vectors, an active prolyl 4-hydroxylase was formed, and this protein appeared to be an alpha (II) 2 beta 2 tetramer. The activity of this enzyme was very similar to that of the human alpha (I) 2 beta 2 tetramer, and most of its catalytic properties were also highly similar, but it differed distinctly from the latter in that it was inhibited by poly(L-proline) only at very high concentrations. This property may explain why the type II enzyme was not recognized earlier, as an early step in the standard purification procedure for prolyl 4-hydroxylase is affinity chromatography on a poly(L-proline) column.
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PMID:Cloning, baculovirus expression, and characterization of a second mouse prolyl 4-hydroxylase alpha-subunit isoform: formation of an alpha 2 beta 2 tetramer with the protein disulfide-isomerase/beta subunit. 775 22

Nineteen distinct types of collagen have been found in vertebrates. Studies with newly discovered collagens have lead us to propose two new subgroups of collagens, namely membrane-associated collagens, including type XIII and XVII collagens, and a subgroup formed by the homologous collagens XV and XVIII. Type XIII collagen is found ubiquitously in the matrix, and in view of its plasma membrane localization it may function in cell adhesion. The new homologous collagens XV and XVIII are characterized by a collagenous sequence with frequent interruptions and large amino and carboxyterminal noncollagenous domains. Type XVIII collagen chains have three variant amino-terminal ends and one of these variants is characterized by a new cysteine-rich sequence motif, termed the fz sequence. A key enzyme of collagen biosynthesis is prolyl 4-hydroxylase consisting of two alpha and two beta subunits. The beta subunit is a multifunctional polypeptide with several distinct activities. Furthermore, two types of alpha subunit have been identified resulting in enzyme tetramers with highly similar properties with some interesting differences.
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PMID:[Anders Jahre Prize for Young Researchers 1994. The collagen family: new members and new concepts about their biosynthesis]. 789 27

Prolyl 4-hydroxylase (EC 1.14.11.2) catalyzes the formation of 4-hydroxyproline in collagens. The vertebrate enzyme is an alpha 2 beta 2 tetramer, the beta subunit of which is identical to protein disulfide-isomerase (PDI). We report here on the cloning of the catalytically important alpha subunit from Caenorhabditis elegans. This polypeptide consists of 542 amino acids and signal peptide of 16 additional residues. The C. elegans alpha subunit is 25 amino acids longer than the human alpha subunit, mainly because of a 32-amino-acid C-terminal extension present only in the former. The overall amino acid sequence identity between these two alpha subunits is 45%, a 127-amino acid region close to the C terminus being especially well conserved. When the C. elegans alpha subunit was expressed together with the human PDI/beta subunit in insect cells by baculovirus vectors, an active prolyl 4-hydroxylase was formed, but surprisingly this C. elegans/human enzyme appeared to be an alpha beta dimer. The specific activity of this C. elegans/human enzyme was comparable with that of the human enzyme, and most of the other catalytic properties were also highly similar. Nevertheless, the C. elegans/human enzyme was not inhibited by poly(L-proline). The data indicate that the multifunctional PDI/beta subunit can form an active prolyl 4-hydroxylase with alpha subunits having marked differences in their amino acid sequences.
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PMID:Cloning, baculovirus expression, and characterization of the alpha subunit of prolyl 4-hydroxylase from the nematode Caenorhabditis elegans. This alpha subunit forms an active alpha beta dimer with the human protein disulfide isomerase/beta subunit. 792 9

The protein or cDNA sequencing revealed that the membrane-associated 3,5,3'-triiodo-thyronine binding protein (T3BP) acts as a multifunctional protein:protein disulfide isomerase (PDI) catalyzing isomerization of intra- and inter-molecular disulfide bridge in the proteins, beta-subunit of prolyl 4-hydroxylase catalyzing the formation of 4-hydroxyproline in collagen molecules, glycosylation site binding protein which is a component of oligosaccharyl transferase transferring oligosaccharide chains to the asparagine residues of Asn-X-Ser/Thr site in nascent polypeptide, and a component of triglyceride transfer protein complex involved in the transfer unit of triglyceride, cholesteryl ester and phosphatidylcholine between biomembranes. The functions of 55 k-T3BP/PDI, mainly involved in important post-translational modifications, are discussed in relation to the domain structure of the molecule.
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PMID:[Molecular cloning and multifunctions of membrane-associated 3,5,3'-triiodo-L-thyronine binding protein with protein disulfide isomerase activity]. 819 76

Protein disulphide isomerase (PDI) is a unique polypeptide which resides in the lumen of the endoplasmic reticulum and also functions as the beta-subunit of prolyl 4-hydroxylase, as a cellular thyroid hormone-binding protein, as the smaller subunit of the microsomal triacylglycerol transfer protein complex, as a dehydroascorbate reductase and as a protein that binds various peptides in a specific manner. We have recently demonstrated that the promoter of the PDI gene contains six CCAAT boxes and other elements which are needed for efficient transcription. We now demonstrate that purified human recombinant transcription factor Sp1 interacts with two perfect GGGCGG sequences and three other GC-rich elements of the PDI promoter. Sp1 also appears to participate in the regulation of PDI gene expression, since overexpression of Sp1 stimulated PDI promoter activity in HeLa cells and mutations introduced into each of these Sp1-binding sites separately reduced the promoter strength, although even the largest decrease was only about 50%. These results support our view that expression of the gene for this polypeptide with multiple functions is secured by several regulatory elements, some of which are functionally redundant.
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PMID:Interaction of transcription factor Sp1 with the promoter of the gene for the multifunctional protein disulphide isomerase polypeptide. 850 62

To determine the regulatory role of prolyl hydroxylation in intracellular cardiac procollagen turnover, we examined the effects of prolyl 4-hydroxylase inhibitors (alpha, alpha-dipyridil, 3,4-dihydroxybenzoic acid ethyl ester, pyridine 2,4-dicarboxylic acid ethyl ester) and ascorbic acid on procollagen metabolism by cultured, neonatal rat cardiac fibroblasts. Ascorbate-deficient fibroblasts showed decreased rates of prolyl hydroxylation and total collagen accumulation without a significant reduction in alpha 1(I) and alpha 1(III) mRNA levels. The fraction of newly synthesized procollagens degraded intracellularly was also substantially increased in ascorbate-deficient cells (50 +/- 7 v 30 +/- 3% in ascorbate-deficient v control fibroblasts; P < 0.05). These findings were associated with increased intracellular accumulation of Type I procollagen, enhanced secretion of "underhydroxylated" pro alpha 1 (I) polypeptide into the cell culture medium, and decreased extracellular Type I collagen deposition. Similar results were obtained by treating cells with alpha, alpha-dipyridil (300 microns), and 3,4-dihydroxybenzoic acid ethyl ester (400 microM) in the presence of ascorbate. A major portion of the enhanced degradation of newly synthesized procollagens occurred within acidic intracellular compartments as indicated by the inhibition of procollagen degradation by chloroquine (25 microM). Inhibition of procollagen secretion by colchicine (0.5 micrograms/ml) enhanced the diversion to, and subsequent intracellular degradation of underhydroxylated procollagens in cardiac fibroblast lysosomes. We conclude that inactivation of prolyl 4-hydroxylase increases intracellular accumulation and intralysosomal degradation of newly synthesized cardiac procollagen polypeptides. These observations suggest that procollagen prolyl hydroxylation may be important in the regulation of collagen accumulation by cardiac interstitial cells during fibrotic processes in vivo
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PMID:Prolyl hydroxylation regulates intracellular procollagen degradation in cultured rat cardiac fibroblasts. 852 10

Prolyl 4-hydroxylase (EC 1.14.11.2) catalyses the post-translational formation of 4-hydroxyproline in collagens. The vertebrate enzymes are alpha2beta2 tetramers, their beta subunit being identical to protein disulphide isomerase (PDI). The function of the PDI-beta subunit in prolyl 4-hydroxylases is not fully understood, but it seems to be that of keeping the highly insoluble alpha subunits in solution. We report here that expression of the alpha subunit of human type I prolyl 4-hydroxylase in insect cells together with BiP polypeptide leads to the formation of both soluble and insoluble alpha-subunit-BiP complexes. Formation of the soluble complexes was evident from (1) a marked increase in the amount of the alpha subunit in the soluble fraction of the cell homogenates when expressed together with BiP, (2) immunoprecipitation experiments and (3) demonstration of the presence of some of the complexes by polyacrylamide gel electrophoresis under non-denaturing conditions. Formation of the insoluble complexes was suggested by an increase in the amount of BiP in the insoluble fraction when expressed together with the alpha subunit. Nevertheless the soluble alpha-subunit-BiP complexes had no prolyl 4-hydroxylase activity. This indicates that the function of the PDI-beta subunit in the prolyl 4-hydroxylase tetramer is not only that of keeping the alpha subunits in solution but appears to be more specific, probably that of keeping them in a catalytically active, non-aggregated conformation.
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PMID:Co-expression of the alpha subunit of human prolyl 4-hydroxylase with BiP polypeptide in insect cells leads to the formation of soluble and insoluble complexes. Soluble alpha-subunit-BiP complexes have no prolyl 4-hydroxylase activity. 861 37

Prolyl 4-hydroxylase (EC 1.14.11.2) catalyses the formation of 4-hydroxyproline in collagens. The vertebrate enzymes are alpha 2 beta 2 tetramers while the Caenorhabditis elegans enzyme is an alpha beta dimer. The beta-subunit is identical to protein disulphide isomerase (PDI), a multifunctional endoplasmic reticulum luminal polypeptide. ERp60 is a PDI isoform that was initially misidentified as a phosphatidylinositol-specific phospholipase C. We report here on the cloning and expression of the human and Drosophila ERp60 polypeptides. The overall amino acid sequence identity and similarity between the processed human ERp60 and PDI polypeptides are 29% and 56% respectively, and those between the Drosophila ERp60 and human PDI polypeptides 29% and 55%. The two ERp60 polypeptides were found to be similar to human PDI within almost all their domains, the only exception being the extreme C-terminal region. Nevertheless, when the human or Drosophila ERp60 was expressed in insect cells together with an alpha-subunit of human prolyl 4-hydroxylase, no tetramer was formed and no prolyl 4-hydroxylase activity was generated in the cells. Additional experiments with hybrid polypeptides in which the C-terminal regions had been exchanged between the human ERp60 and PDI polypeptides demonstrated that the differences in the C-terminal region are not the only reason for the lack of prolyl 4-hydroxylase tetramer formation by ERp60.
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PMID:ERp60 does not substitute for protein disulphide isomerase as the beta-subunit of prolyl 4-hydroxylase. 868 6

Protein disulphide isomerase (PDI; EC 5.3.4.1) is a multifunctional polypeptide that is identical to the beta subunit of prolyl 4-hydroxylases. We report here on the cloning and expression of the Caenorhabditis elegans PDI/beta polypeptide and its isoform. The overall amino acid sequence identity and similarity between the processed human and C. elegans PDI/beta polypeptides are 61% and 85% respectively, and those between the C. elegans PDI/beta polypeptide and the PDI isoform 46% and 73%. The isoform differs from the PDI/beta and ERp60 polypeptides in that its N-terminal thioredoxin-like domain has an unusual catalytic site sequence -CVHC-. Expression studies in insect cells demonstrated that the C. elegans PDI/beta polypeptide forms an active prolyl 4-hydroxylase alpha 2 beta 2 tetramer with the human alpha subunit and an alpha beta dimer with the C. elegans alpha subunit, whereas the C. elegans PDI isoform formed no prolyl 4-hydroxylase with either alpha subunit. Removal of the 32-residue C-terminal extension from the C. elegans alpha subunit totally eliminated alpha beta dimer formation. The C. elegans PDI/beta polypeptide formed less prolyl 4-hydroxylase with both the human and C. elegans alpha subunits than did the human PDI/beta polypeptide, being particularly ineffective with the C. elegans alpha subunit. Experiments with hybrid polypeptides in which the C-terminal regions had been exchanged between the human and C. elegans PDI/beta polypeptides indicated that differences in the C-terminal region are one reason, but not the only one, for the differences in prolyl 4-hydroxylase formation between the human and C. elegans PDI/beta polypeptides. The catalytic properties of the C. elegans prolyl 4-hydroxylase alpha beta dimer were very similar to those of the vertebrate type II prolyl 4-hydroxylase tetramer, including the K(m) for the hydroxylation of long polypeptide substrates.
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PMID:Baculovirus expression of two protein disulphide isomerase isoforms from Caenorhabditis elegans and characterization of prolyl 4-hydroxylases containing one of these polypeptides as their beta subunit. 876 Mar 55

Prolyl 4-hydroxylase (proline hydroxylase, EC 1.14.11.2) catalyzes the formation of 4-hydroxyproline in collagens. The vertebrate enzyme is an alpha2beta2 tetramer, the beta subunit of which is identical to protein disulfide-isomerase (PDI, EC 5.3.4.1). We report here on cloning of the recently discovered alpha(II) subunit from human sources. The mRNA for the alpha(II) subunit was found to be expressed in a variety of human tissues, and the presence of the corresponding polypeptide and the (alpha(II))2beta2 tetramer was demonstrated in cultured human WI-38 and HT-1080 cells. The type II tetramer was found to represent about 30% of the total prolyl 4-hydroxylase in these cells and about 5-15% in various chick embryo tissues. The results of coexpression in insect cells argued strongly against the formation of a mixed alpha(I)alpha(II)beta2 tetramer. PDI/beta polypeptide containing a histidine tag in its N terminus was found to form prolyl 4-hydroxylase tetramers as readily as the wild-type PDI/beta polypeptide, and histidine-tagged forms of prolyl 4-hydroxylase appear to offer an excellent source for a simple large scale purification of the recombinant enzyme. The properties of the purified human type II enzyme were very similar to those of the type I enzyme, but the Ki of the former for poly(L-proline) was about 200-1000 times that of the latter. In agreement with this, a minor difference, about 3-6-fold, was found between the two enzymes in the Km values for three peptide substrates. The existence of two forms of prolyl 4-hydroxylase in human cells raises the possibility that mutations in one enzyme form may not be lethal despite the central role of this enzyme in the synthesis of all collagens.
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PMID:Cloning of the human prolyl 4-hydroxylase alpha subunit isoform alpha(II) and characterization of the type II enzyme tetramer. The alpha(I) and alpha(II) subunits do not form a mixed alpha(I)alpha(II)beta2 tetramer. 921 72


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