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:P11021 (BiP)
2,049 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The heat shock/stress response is characterized by the induction of several highly evolutionarily conserved proteins during thermal stress, chemical stress, or glucose starvation. It has recently been recognized that members of the stress protein family are synthesized constitutively and subserve functions that are critical to protein folding during intracellular transport. In this study we examined the expression of heat shock/stress proteins in human mononuclear phagocytes, cells dependent on intracellular transport for Ag processing, Ag presentation, generation of reactive oxygen intermediates, and secretion of proinflammatory and antiinflammatory polypeptides. The results indicate that there are distinct patterns in expression of individual members of the highly homologous SP70, SP90, and ubiquitin gene families during different stress states. There is a marked increase in expression of the heat-inducible form of SP70 and SP90 in human monocytes during heat shock. Expression of GRP 78/BiP and GRP 94 increases predominantly during glucose starvation but also increases during heat shock. Ubiquitin gene expression increases during both heat shock and glucose starvation. There is no change in synthesis of the constitutive form of SP 70 or of the ubiquitin activating enzyme E1 during heat shock or glucose starvation. Synthesis of the constitutive form of SP 70 and novel SP 90-like polypeptides increase during endotoxin-mediated inflammatory activation. One intracellular transport process of the mononuclear phagocyte, secretion of specific proinflammatory and antiinflammatory polypeptides, is affected by glucose starvation and by heat shock.
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PMID:Expression of stress proteins in human mononuclear phagocytes. 188 Apr 18

A detailed kinetic and quantitative analysis of the early and late biosynthetic events undergone by the human immunodeficiency virus type 1 envelope protein expressed by a recombinant vaccinia virus was performed. Early folding events that occurred in the endoplasmic reticulum included disulfide bond formation (t1/2 approximately 10 min), folding of envelope protein into a form competent to bind CD4 (t1/2 approximately 15 min), and specific and transient association and dissociation with GRP78-BiP (t1/2 approximately 25 min). After initial folding, envelope protein monomers formed noncovalently associated dimers with high efficiency (t1/2 approximately 30 min). Studies with brefeldin A, a compound that inhibits endoplasmic reticulum-to-Golgi transport, suggested that assembly occurred in the endoplasmic reticulum while cleavage of gp160 into gp120/gp41 subunits occurred in a post-endoplasmic reticulum compartment. Transport to the Golgi was monitored by modification of N-linked sugars to forms partially resistant to endoglycosidase H. The kinetics of endoglycosidase H resistance were nearly identical to the kinetics of gp160 cleavage (t1/2 approximately 80 min). Cleavage efficiency was strongly cell type dependent, ranging from 13 to 70%. By contrast, approximately 50% of the gp120 generated by the cleavage event was shed (t1/2 approximately 120 min) regardless of the cell type used. The results are discussed in terms of the overall biosynthetic pathway of the envelope protein and provide a framework with which to assess the effects of mutations on structure and function.
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PMID:Folding, interaction with GRP78-BiP, assembly, and transport of the human immunodeficiency virus type 1 envelope protein. 190 May 40

The characteristics of phosphorylation of the 78-kDa glucose-regulated protein (Grp78), also known as the immunoglobulin heavy chain binding protein, were studied in vitro and in vivo. The purified protein from either calf liver or bovine kidney cells (MDBK) could be phosphorylated in vitro with [gamma-32P]ATP, in a reaction that is stimulated by Ca2+ and inhibited by the Ca(2+)-chelator ethylene glycol bis(beta-aminoethyl ether)N,N'-tetraacetic acid (EGTA). In the presence of EGTA, excess Ca2+ increased the rate of phosphorylation about 18-fold. Based on EGTA/Ca2+ titrations, the optimal Ca2+ concentration for phosphorylation was estimated to be 10-50 microM. Other divalent cations such as Mg2+, Mn2+, and Zn2+ were found to be inhibitory as was the Ca2+ antagonist lanthanum (La3+). The in vivo phosphorylation of Grp78 was studied in MDBK cells labeled with 32Pi. In the presence of inducers of Grp78 synthesis, such as ionomycin, tunicamycin, or 2-deoxyglucose, there was a large increase in the level of Grp78 in the cells but a decrease in the amount of phosphorylated protein. Two-dimensional gel analysis of Grp78 purified from bovine liver and MDBK cells identified at least four isoforms. After in vivo and in vitro phosphorylation of Grp78 all the acidic isoforms contained radioactivity but not the most basic isoform. Phosphoamino acid analysis of Grp78 showed that serine and threonine were phosphorylated in vivo and only threonine was phosphorylated in vitro.
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PMID:Calcium-dependent autophosphorylation of the glucose-regulated protein, Grp78. 191 Mar 17

We have translated the HLA-B27 heavy chain in vitro and studied its assembly with beta 2-microglobulin and peptide in microsomes from human cells. The assembly process requires ATP. However, the translocation of peptide across the endoplasmic reticulum (ER) membrane does not require ATP, and binding of biotinylated peptide to BiP, an ER luminal protein, occurs after ATP depletion. Proteinase K treatment of the microsomes does not block peptide translocation. Thus, ATP is required in the lumen of the ER for efficient assembly to occur. Microsomes prepared from Raji and T1 cells show similar levels of assembly, whereas assembly in T2 microsomes is 10-fold lower. This difference remains after peptide stimulation of assembly. The inefficient assembly in T2 microsomes is not due to impaired peptide translocation across the ER membrane, as no difference was found compared with microsomes from T1 cells. Instead, the defect seems to reside in the lumen of the ER.
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PMID:ATP is required for in vitro assembly of MHC class I antigens but not for transfer of peptides across the ER membrane. 191 23

The intracellular fates of membrane and secretory immunoglobulin heavy chains were examined in a pre-B cell line that has switched to the gamma isotype. The membrane form of the heavy chain (gamma m) was rapidly degraded while the secretory form (gamma s) was retained intracellularly in association with BiP. The degradation of gamma m could not be inhibited by ammonium chloride, chloroquine, or monensin suggesting that it occurred in a nonlysosomal compartment. The inability to detect any Endo H-resistant form of gamma m before its degradation suggested that degradation occurs before entry into the Golgi compartment. Degradation of gamma m could be inhibited by incubation at 24 degrees C. In a derivative of this cell line expressing a transfected kappa gene, gamma s formed disulfide linked tetramers with kappa and was secreted, while gamma m, although associated with kappa, continued to be rapidly degraded. These observations suggest that membrane and secretory heavy chain proteins are retained by distinct intracellular mechanisms. Although masking of the CH1 domain abrogates gamma s retention, this domain does not influence the intracellular fate of gamma m.
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PMID:Distinct intracellular fates of membrane and secretory immunoglobulin heavy chains in a pre-B cell line. 191 56

The mechanism by which endoplasmic reticulum (ER) stress proteins are induced by the accumulation of incompletely assembled or malfolded proteins in the ER is poorly understood. The 78-kDa glucose-regulated protein (BiP), one of the ER stress proteins, has often been detected in stable complexes with these accumulated proteins. We have transfected COS cells with an immunoglobulin (Ig) mu heavy chain expression plasmid. Expressed mu-chain accumulated in the cells and formed stable complexes with BiP. As a result, the synthesis of three ER stress proteins, BiP, the 94-kDa glucose-regulated protein (GRP94/ERp99), and ERp72, was increased as were their mRNA levels. In addition, the degradation rate of BiP was increased, possibly because of its interaction with mu-chain. Cotransfection of the mu-chain plasmid with an Ig lambda light chain expression plasmid resulted in the appearance of mu-chain in the media in a covalent complex with lambda-chain. An intracellular consequence of this was a reduction in the levels of BiP.mu-chain complex, and a diminished stimulation in the synthesis of the ER stress proteins. These results suggest that the BiP.mu-chain complex in the ER may be involved in the signaling pathway for the induction of ER stress proteins and may represent one regulatory mechanism operating in differentiating B-lymphocytes.
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PMID:Regulation of endoplasmic reticulum stress proteins in COS cells transfected with immunoglobulin mu heavy chain cDNA. 193 4

The endoplasmic reticulum of mammalian cells contains a heat shock protein of approximately 70 kDa (hsp70) termed binding protein BiP that is thought to promote the folding and subunit assembly of newly synthesized proteins. To study BiP function, we placed the BiP-encoding gene from Saccharomyces cerevisiae under the control of a regulated promoter and examined the effects of BiP depletion. Reduction of BiP protein to about 15% of normal levels led to a profound reduction in secretion of alpha factor and invertase. At the same time, unglycosylated precursors of these proteins accumulated intracellularly. The predominant form of the invertase precursor had undergone signal sequence cleavage but accumulated as a soluble species in the cytosol. In contrast, the alpha-factor precursor was exclusively in the signal-uncleaved form. It sedimented with microsomal membranes and was exposed at the cytoplasmic face in a protease-resistant form. These findings suggest that, in yeast, BiP function is required for translocation of soluble proteins into the endoplasmic reticulum at a stage beyond the initial nascent chain-membrane association.
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PMID:Binding protein BiP is required for translocation of secretory proteins into the endoplasmic reticulum in Saccharomyces cerevisiae. 199 57

The cellular glucose-regulated protein GRP78-BiP is a member of the HSP70 stress family of gene products, and the protein is a resident component of the endoplasmic reticulum, where it is thought to play a role in the folding and oligomerization of secretory and membrane-bound proteins. GRP78-BiP also binds to malfolded proteins, and this may be one mechanism for preventing their intracellular transport. An induction in synthesis of the GRP78-BiP protein occurs in cells infected with paramyxoviruses (R. W. Peluso, R. A. Lamb, and P. W. Choppin, Proc. Natl. Acad. Sci. USA 75:6120-6124, 1978). We have studied the expression and activity of the GRP78-BiP gene and synthesis of the GRP78-BiP protein during infection with the paramyxovirus simian virus 5 (SV5). We wished to identify the viral component capable of causing activation of GRP78-BiP since GRP78-BiP interacts specifically and transiently with the SV5 hemagglutinin-neuraminidase (HN) glycoprotein during HN folding (D. T. W. Ng, R. E. Randall, and R. A. Lamb, J. Cell Biol. 109:3273-3289, 1989). Expression of cDNAs of the SV5 wild-type HN glycoprotein and a mutant form of HN that is malfolded but not the SV5 F glycoprotein or SV5 cytoplasmic proteins P, V, and M caused increased amounts of GRP78-BiP mRNA to accumulate, as detected by nuclease S1 protection assays. As unfolded or malfolded forms of HN cannot be detected to accumulate during SV5 infection, the data suggest that the flux of HN through the ER in SV5-infected cells can cause activation of GRP78-BiP transcription.
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PMID:Flux of the paramyxovirus hemagglutinin-neuraminidase glycoprotein through the endoplasmic reticulum activates transcription of the GRP78-BiP gene. 204 Oct 85

Mammalian cell lines expressing nicotinic acetylcholine receptor (AChR) subunit cDNAs from Torpedo californica were used to study early events in AChR assembly. To test the hypothesis that individual subunits form homooligomeric intermediates before assembling into alpha 2 beta gamma delta pentamers, we analyzed the sedimentation on sucrose density gradients of each subunit expressed separately in cell lines. We have shown previously that the acute temperature sensitivity of Torpedo AChR subunit assembly is due, in part, to misfolding of the polypeptide chains (Paulson, H.L., and T. Claudio. 1990. J. Cell Biol. 110:1705-1717). We use this phenomenon to further analyze putative assembly-competent intermediates. In nonionic detergent at an assembly-permissive temperature, the majority of alpha, beta, gamma, and delta subunits sediment neither as 3-4S monomers nor as 9S complexes, but rather as 6S species whether synthesized in fibroblasts, myoblasts, or differentiated myosyncytia. Several results indicate that the 6S species are complexes comprised predominantly of incorrectly folded subunit polypeptides. The complexes represent homoaggregates which form rapidly within the cell, are stable to mild SDS treatment and, in the case of alpha, contain some disulfide-linked subunits. The coprecipitation of alpha subunit with BiP or GRP78, a resident protein of the ER, further indicates that at least some of these internally sequestered subunits also associated with an endogenous protein implicated in protein folding. The majority of subunits expressed in these cell lines appear to be aggregates of subunits which are not assembly intermediates and are not assembly-competent. The portion which migrates as monomer, in contrast, appears to be the fraction which is assembly competent. This fraction increases at temperatures more permissive for assembly, further indicating the importance of the monomer as the precursor to assembly of alpha 2 beta gamma delta pentamers.
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PMID:Analysis of early events in acetylcholine receptor assembly. 204 17

Two-dimensional gel electrophoresis of cytosolic proteins from mature human erythrocytes combined with immunoblotting revealed the presence of a group of heat shock proteins (HSPs) that included two molecular chaperons of the HSP70 family (HSX70, inducible; HSC70, constitutively expressed) and HSP90. As expected for cells devoid of organelles, erythrocytes do not contain stress proteins that are localized either in the mitochondria (HSP60, glucose-regulated protein (GRP 75) or in the endoplasmic reticulum (GRP78 or Ig heavy chain-binding protein, endoplasmin). Since red cells are unable to replace proteins whose structure has been damaged by environmental changes the results are taken to imply a role for chaperons in monitoring, protecting, and maintaining the structure and stability of erythrocyte proteins.
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PMID:Identification of two molecular chaperons (HSX70, HSC70) in mature human erythrocytes. 207 Aug 38


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