Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P11021 (BiP)
 2,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

As a part of our studies on the folding of glycoproteins in the ER, we analyzed the fate of viral glycoproteins that have misfolded either spontaneously or through inhibition of N-linked glycosylation. Newly synthesized Semliki Forest virus spike glycoproteins E1 and p62 and influenza hemagglutinin were studied in infected and transfected tissue culture cells. Misfolded proteins aggregated in less than 1 min after release from polysomes and aberrant interchain disulfide bonds were formed immediately. When more than one protein was misfolded, mixed aggregates were generated. This indicated that the formation of complexes was nonspecific, random, and not restricted to products from single polysomes. The size of the aggregates varied from small oligomers to complexes of several million daltons. BiP was associated noncovalently with the aggregates and with some of the nonaggregated products. We conclude that aggregation reflects the poor solubility of incompletely folded polypeptide chains.
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PMID:Misfolding and aggregation of newly synthesized proteins in the endoplasmic reticulum. 131 15

Mouse lymphoma cell line W7MG1 is stably infected with mouse mammary tumor virus and produces the viral envelope glycoprotein precursor Pr74, but the mature envelope proteins gp52 and gp33, which are derived from Pr74 by posttranslational processing, are produced only when the cells are cultured with a glucocorticoid agonist. The current study demonstrated that even when W7MG1 cells are grown with hormone, the conversion of Pr74 to gp52 and gp33 is an inefficient process in this cell line. At least 2 h of exposure to glucocorticoid were required to induce the appearance of gp52 and gp33; furthermore, Pr74 labeled in the absence of hormone was not converted to gp52 and gp33 upon subsequent addition of hormone. RNA synthesis inhibitors blocked the hormonal induction of gp52 and gp33, indicating that the hormone acts by promoting the expression of a new gene(s) required for the production of gp52 and gp33, rather than by inhibiting the expression of a gene(s) that prevents processing of Pr74. Subcellular fractionation studies demonstrated that Pr74 produced in either the presence or absence of hormone was associated primarily with the ER, whereas gp52 and gp33 were found in the Golgi and plasma membrane fractions. The Pr74 molecules from W7MG1 cells grown either with or without glucocorticoid coimmunoprecipitated with BiP/GRP78 and sedimented as aggregates of heterogeneous size. In contrast, Pr74 from virus-producing GR3A mouse mammary tumor cells, which process Pr74 more efficiently, sedimented as apparent monomers, dimers, and trimers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of glucocorticoid on the subcellular localization, oligomerization, and processing of mouse mammary tumor virus envelope protein precursor Pr74. 131 42

In the mouse mammary tumor virus (MMTV)-infected mouse T-lymphoma cell line W7MG1, glucocorticoid hormone regulates two aspects of MMTV gene expression: hormone stimulates MMTV gene transcription and increases the ratio of mature envelope proteins to envelope precursor protein produced. To separate these two effects and determine the mechanism by which hormone regulates the conversion of the envelope precursor Pr74 to the mature cleaved products gp52 and gp33, we constructed expression vectors in which the envelope gene is constitutively transcribed. Surprisingly, the envelope precursor protein Pr74 encoded by two independently isolated, allelic envelope genes behaved differently. Pr74-P (encoded by the ENV/P gene) was processed efficiently to the mature products gp52 and gp33, independently of the level of expression, hormonal induction of cellular genes, or the presence of other MMTV proteins. In contrast, under the same conditions, Pr74-N (encoded by the ENV/N gene) was not processed further despite being relatively stable. In sucrose gradient analyses, Pr74-P sedimented as monomers, whereas Pr74-N was found in high mol wt aggregates of heterogeneous size. Coimmunoprecipitation analysis determined that Pr74-N associated with BiP, whereas Pr74-P did not. This is indicative of improper folding of Pr74-N in the endoplasmic reticulum.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Two different genes coding for processable and nonprocessable forms of a viral envelope protein can account for the apparent hormonal stimulation of protein processing in W7MG1 lymphoma cells. 131 43

Previously we found that in rat exocrine pancreatic cells, protein disulfide-isomerase (PDI), one of the major resident proteins in the lumen of the endoplasmic reticulum (ER) of many cells, is localized not only in the ER but also in the Golgi apparatus, secretory granules, plasma membranes, and even in the glandular lumens, despite possessing the ER retention signal KDEL (Lys-Asp-Glu-Leu) at the carboxyl terminus. In this report, we examined whether other ER luminal proteins bearing the KDEL signal at their C-termini, such as BiP/GRP78 and endoplasmin/GRP94 are also exported from the ER. We prepared two kinds of affinity-purified polyclonal antibodies; one against a synthetic peptide with 12 amino acids which is identical to the carboxyl terminus of BiP and another against purified endoplasmin. Immunoblot analysis using these two antibodies showed that BiP and endoplasmin exist in both the plasma membrane and the microsomal fractions, similar to the intracellular distribution of PDI in rat exocrine pancreas. The ratios of the amount of the three proteins in the two fractions, however, were variable, suggesting that the KDEL-bearing proteins such as PDI, BiP, and endoplasmin are exported from the ER with different efficiencies. Postembedding protein A-immunogold electron microscopy revealed that endoplasmin was exported from the ER and secreted to the extracellular space. The secretion of PDI in rat pancreatic lobules was inhibited by Brefeldin A (BFA) and by guanidino acid esters (FOY-305), which are known to be the inhibitors of the intracellular transport. Taken together with the previous immunogold electron microscopic analyses by Akagi et al. (1988), it is strongly suggested that in rat exocrine pancreatic cells PDI and the other KDEL-bearing proteins found in the extracellular space were not artificially released by cell damage during incubation but were secreted via the normal secretory pathway.
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PMID:Heavy chain binding protein (BiP/GRP78) and endoplasmin are exported from the endoplasmic reticulum in rat exocrine pancreatic cells, similar to protein disulfide-isomerase. 131 87

Many polypeptides have been postulated to play direct roles in secretory protein translocation based on genetic criteria, cross-linking, and antibody inhibition. Much of the excitement in the next few years will come from the resolution of current controversies. What is the nature of the ribosome receptor, and is it essential for translocation? Is BiP required for translocation in mammalian cells? Are all of the polypeptides of signal peptidase and oligosaccharyltransferase required for catalytic function, or do some of them mediate steps of protein translocation? One of the best ways to resolve these problems will be to determine the importance of each in reconstituted translocation reactions by fractionation or immunodepletion, or by analysis in a purified reaction. Another approach is to identify homologues of these molecules in S. cerevisiae and to assess their importance in in vivo translocation. Several mechanistic questions remain to be addressed as well. Does the protein translocation apparatus consist of protein, or lipid, or both? How are integral membrane proteins inserted? How is the translocon gated to admit only unfolded or partially folded secretory polypeptides and to exclude cytoplasmic molecules? The answers to these questions will illuminate a basic enigma in cell biology that has remained unanswered for many years.
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PMID:Polypeptide translocation across the endoplasmic reticulum membrane. 132 Nov 24

To study the importance of individual sulfhydryl residues during the folding and assembly in vivo of influenza virus hemagglutinin (HA), we have constructed and expressed a series of mutant HA proteins in which cysteines involved in three disulfide bonds have been substituted by serine residues. Investigations of the structure and intracellular transport of the mutant proteins indicate that (a) cysteine residues in the ectodomain are essential both for efficient folding of HA and for stabilization of the folded molecule; (b) cysteine residues in the globular portion of the ectodomain are likely to form native disulfide bonds rapidly and directly, without involvement of intermediate, nonnative linkages; and (c) cysteine residues in the stalk portion of the ectodomain also appear not to form intermediate disulfide bonds, even though they have the opportunity to do so, being separated from their correct partners by hundreds of amino acids including two or more other sulfhydryl residues. We propose a role for the cellular protein BiP in shielding the cysteine residues of the stalk domain during the folding process, thus preventing them from forming intermediate, nonnative disulfide bonds.
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PMID:Disulfide bond formation during the folding of influenza virus hemagglutinin. 132 Nov 56

We have characterized the basic amino acid methylation of three members of the 70,000-Da heat shock protein superfamily, hsp68, hsc70, and BiP, in Balb/c 3T3 cells. It appears that a lysyl residue is the only methylation site in BiP and that both lysyl and arginyl residues are methylated in hsp68 and hsc70. In all cases, epsilon-N-trimethyllysine is the predominant methyllysine species. Both NG-monomethylarginine and NG,NG-dimethylarginine are identified as the methylarginine species. The stoichiometry of the methylation is indirectly determined by using the amount of actin methylation as a reference. Three, four, and four methyl groups are incorporated into lysyl residues of hsp68, hsc70, and BiP, respectively. The level of lysyl methylation in hsc70 remains unchanged under different growth conditions. On the other hand, the arginyl methylation in hsc70 varies considerably. In confluent Balb/c 3T3 cells, there are 1.8 and 1.3 methyl groups in dimethylarginine and monomethyl-arginine, respectively. In nonconfluent cells, the amount of monomethylarginine is similar to that in confluent cells, but dimethylarginine is not detectable. Furthermore, in both confluent and nonconfluent cells, the level of monomethylarginine is reduced 5- to 10-fold after arsenite treatment. However, in 3T3 cells transformed by Rous sarcoma virus (SR-RSV 3T3 cells), the level of arginine methylation is constitutively lower and cannot be reduced further by arsenite.
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PMID:Methylations of 70,000-Da heat shock proteins in 3T3 cells: alterations by arsenite treatment, by different stages of growth and by virus transformation. 132 11

Using specific anti-BiP/Kar2 antibody as the probe, we have developed an efficient purification method of BiP/Kar2 protein from the total cell extract of Saccharomyces cerevisiae. Overproduction of BiP/Kar2 protein was achieved by the cloning of the KAR2 gene on multicopy plasmids and the treatment of cells harboring the cloned KAR2 gene with tunicamycin. Freeze-thaw treatment, hydroxyapatite high pressure liquid chromatography, and ATP-agarose column chromatography of crude extract yielded homogeneous BiP/Kar2 protein (including less than 0.2% of degradative derivative) with a 430-fold purification and 28% recovery. Edman degradation of purified BiP/Kar2 suggests that the mature protein corresponds to a processed product with the removal of a 42-amino acid presequence. It is active as a homodimer and exhibits ATPase activity with a specific activity of 2 pmol/min/micrograms of protein. Protease susceptibility indicated that the ADP form of BiP/Kar2 is more resistant than the ATP form to the chymotrypsin digestion and that BiP/Kar2 required the presence of ATP to avoid the irreversible denaturation. Synthesis of BiP/Kar2 was induced by the inducible expression of an aberrant heterologous protein, yeast killer prepro-signal mouse alpha-amylase fusion protein.
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PMID:Purification and characterization of BiP/Kar2 protein from Saccharomyces cerevisiae. 132 40

The ERD2 gene of Saccharomyces cerevisiae encodes the HDEL receptor that sorts ER proteins; it is essential for growth. In the absence of Erd2p the Golgi apparatus is both functionally and morphologically perturbed. Here we describe the isolation of four SED genes (suppressors of the erd2-deletion) which, when present in multiple copies, allow cells to grow in the absence of ERD2. The suppressed strains secrete the ER protein BiP and their internal membranes show a variety of morphological abnormalities. Sequence analysis indicates that all these SED genes encode membrane proteins: SED1 encodes a probable cell surface glycoprotein; SED2 is identical to SEC12, a gene required for the formation of ER-derived transport vesicles; SED4 encodes a protein whose cytoplasmic domain is 45% identical to that of Sec12p; SED3 is DPM1, the structural gene for dolichol-P-mannose synthase. We suggest that the absence of ERD2 causes an imbalance between membrane flow into and out of the Golgi apparatus, and that the SED gene products can compensate for this either by slowing transport from the ER or by stimulating vesicle budding from Golgi membranes.
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PMID:Genes that allow yeast cells to grow in the absence of the HDEL receptor. 132 59

Immunofluorescence and immunogold labeling, together with sucrose gradient separation and Western blot analysis of microsomal subfractions, were employed in parallel to probe the endoplasmic reticulum in the cell body and dendrites of rat cerebellar Purkinje neurons. Two markers, previously investigated in non-nerve cells, the membrane protein p91 (calnexin) and the lumenal protein BiP, were found to be highly expressed and widely distributed to the various endoplasmic reticulum sections of Purkinje neurons, from the cell body to dendrites and dendritic spines. An antibody (denominated anti-rough-surfaced endoplasmic reticulum), which recognized two membrane proteins, p14 and p40, revealed a similar immunogold labeling pattern. However, centrifugation results consistent with a widespread distribution were obtained for p14 only, while p40 was concentrated in the rough microsome-enriched subfractions. The areas enriched in the inositol 1,4,5-triphosphate receptor and thus presumably specialized in Ca2+ transport (stacks of multiple smooth-surfaced cisternae; the dendritic spine apparatus) also exhibited labeling for BiP and p91, and were positive for the anti-rough-surfaced endoplasmic reticulum antibody (presumably via the p14 antigen). Additional antibodies, that yielded inadequate immunocytochemical signals, were employed only by Western blotting of the microsomal subfractions, while the ryanodine receptor was studied by specific binding. The latter receptor and the Ca2+ ATPase, known in other species to be concentrated in Purkinje neurons, exhibited bimodal distributions with a peak in the light and another in the heavy subfractions. A similar distribution was also observed with another lumenal protein, protein disulfide isomerase. Taken as a whole, the results that we have obtained suggest the existence in the endoplasmic reticulum of Purkinje neurons of two levels of organization; the first identified by widespread, probably general markers (BiP, p91, possibly p14 and others), the second by specialization markers, such as the inositol 1,4,5-triphosphate receptor and, possibly, p40, which appear restricted to areas where specific functions appear to be localized.
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PMID:The endoplasmic reticulum of Purkinje neuron body and dendrites: molecular identity and specializations for Ca2+ transport. 133 57


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