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)

Isolation and biochemical analysis of the components involved in protein translocation into the rough endoplasmic reticulum (ER) requires starting material highly enriched in membranes derived from this organelle. We have chosen to study the yeast Saccharomyces cerevisiae in order to profit from the ease of genetic manipulation. To date, however, no efficient scheme has been devised that allows the purification of functional rough ER-derived membranes from yeast, largely because proteins have yet to be identified that are rough ER-specific. In the experiments described here, we expressed the human rough ER marker ribophorin I to facilitate the analysis of subcellular fractionation. We found that the endoplasmic reticulum of yeast could be separated into two distinct domains by fractionation on continuous sucrose gradients. This procedure revealed a bimodal distribution of ER markers. The yeast homologue of the heavy chain-binding protein, BiP (encoded by the KAR2 gene), and the product of the SEC62 gene were present in two fractions having equilibrium densities of 1.146 and 1.192 g/ml, respectively. In contrast, our analysis showed that preprotein translocation activity and retention of the rough ER-specific protein ribophorin I were specific only to the membrane fraction with an equilibrium density of 1.192 g/ml. To prepare fractions highly enriched in translocation competent rough ER-derived membranes for analysis, we developed a density shift fractionation scheme that optimizes the purity of membranes containing human ribophorin I. Membranes obtained by this method were found to possess the majority of the appropriate functional markers, including ATP-independent preprotein binding, ribosome binding, and post-translational translocation. Mitochondria, the major contaminant of the 1.192 g/ml fraction, were significantly depleted in density-shifted membrane populations.
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PMID:Purification and functional characterization of membranes derived from the rough endoplasmic reticulum of Saccharomyces cerevisiae. 207 10

Immunoglobulin heavy chain binding protein (BiP, GRP78) associates stably with the free, nonsecreted Ig heavy chains synthesized by Abelson virus transformed pre-B cell lines. In cells synthesizing both Ig heavy and light chains, the Ig subunits assemble rapidly and are secreted. Only incompletely assembled Ig molecules can be found bound to BiP in these cells. In addition to Ig heavy chains, a number of mutant and incompletely glycosylated transport-defective proteins are stably complexed with BiP. When normal proteins are examined for combination with BiP, only a small fraction of the intracellular pool of nascent, unfolded, or unassembled proteins can be found associated. It has been difficult to determine whether these BiP-associated molecules represent assembly intermediates which will be displaced from BiP and transported from the cell, or whether these are aberrant proteins that are ultimately degraded. In order for BiP to monitor and aid in normal protein transport, its association with these proteins must be reversible and the released proteins should be transport competent. In the studies described here, transient heterokaryons were formed between a myeloma line producing BiP-associated heavy chains and a myeloma line synthesizing the complementary light chain. Introduction of light chain synthesis resulted in assembly of prelabeled heavy chains with light chains, displacement of BiP from heavy chains, and secretion of Ig into the culture supernatant. These data demonstrate that BiP association can be reversible, with concordant release of transportable proteins. Thus, BiP can be considered a component of the exocytic secretory pathway, regulating the transport of both normal and abnormal proteins.
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PMID:Immunoglobulin heavy chain and binding protein complexes are dissociated in vivo by light chain addition. 211 44

The induction of human BiP/GRP78 and GAPDH protein genes by the calcium ionophore A23187 was determined. Steady-state levels of mRNA for both the glucose starvation-responsive BiP/GRP78 gene and the glucose-responsive GAPDH gene were dramatically induced in a variety of human cells. There is a homologous palindromatic sequence GCCGTTAACGGC in the active promoter region of the two genes that is known to be required for the induction of mammalian BiP/GRP78 by A23187. The evidence confirms in general the function of this element in the regulation of calcium-associated gene activity.
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PMID:Coordinated induction of two unrelated glucose-regulated protein genes by a calcium ionophore: human BiP/GRP78 and GAPDH. 211 50

Immunoglobulin light chains are usually secreted from cells when they are synthesized alone or in molar excess of heavy chains, but, there have been reports of nonsecreted light chains. We wished to determine whether immunoglobulin heavy chain binding protein (BiP), which blocks the transport of free heavy chains, might be responsible for the lack of secretion of some light chains. In two murine lymphoid cell lines that synthesize but do not secrete immunoglobulin light chains, the free light chain polymers were found bound to BiP. Examination of 20 other cell lines and hybridomas failed to disclose any cells synthesizing free or excess light chains that associated with BiP, in all cases the free light chains were secreted as dimers. Despite their association with BiP and their blocked secretion, the aberrant light chains could combine with heavy chains and could be secreted as intact Ig molecules. Thus, while light chains do not usually express signals which allow them to bind to BiP, it appears that such signals can be expressed on certain light chains, resulting in their combination with BiP and blocked secretion. When single chain mutant cell lines are isolated from parental lines producing both heavy and light chains, they are almost always light chain producers suggesting that free heavy chains are much more toxic than free light chains. In both PC700 and P3X63Ag cells, however, clones that have lost either heavy chains or transport-defective light chains are present at the same frequency. Our findings that the light chains in both of these lines are associated with BiP raise the possibility that BiP actually contributes to heavy chain toxicity instead of preventing it.
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PMID:Association of transport-defective light chains with immunoglobulin heavy chain binding protein. 211 93

Although immunoglobulin light chains are usually secreted in association with heavy chains, free light chains can be secreted by lymphocytes. To identify the structural features of light chains that are essential for their secretion, we mutated a conserved sequence in the variable domain of a lambda I light chain. The effects of the mutations on secretion were assayed by transient expression in COS-1 cells. One mutant (AV60), which replaced Ala-60 with Val, was secreted as efficiently as wild-type lambda I by transfected COS-1 cells. This result was not surprising because secreted lambda II chains contain valine in this position. However, a second lambda I mutant (AV60FS62), which replaced Phe-62 with Ser as well as Ala-60 with Val, was not secreted. This mutant was arrested in the endoplasmic reticulum, as judged by immunofluorescence and by its association with a lumenal endoplasmic reticulum protein, immunoglobulin heavy chain binding protein (BiP). The defect in secretion was not due to gross misfolding of the lambda I chain, since cells cotransfected with AV60FS62 and an immunoglobulin heavy chain gene produced functional antigen-binding antibodies. These assembled IgM molecules were still not secreted. Hence, the replacement of Phe-62 with Ser specifically affects a determinant on the lambda I light chain that is necessary for the intracellular transport of this molecule.
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PMID:A single amino acid substitution in the variable region of the light chain specifically blocks immunoglobulin secretion. 212 54

Greater than 85% of the transport-impaired PiZ variant of human alpha 1-antitrypsin is retained within cells and subsequently degraded within a pre-Golgi nonlysosomal compartment that is apparently separate from the endoplasmic reticulum (ER) (Le, A., Graham, K. S., and Sifers, R. N. (1990) J. Biol. Chem. 265, 14001-14007). Despite this phenomenon, human patients and PiZ-bearing transgenic mice exhibit an accumulation of the undegraded protein as insoluble aggregates within distended cisternae of the hepatic ER (Carlson, J. A., Rogers, B. B., Sifers, R. N., Finegold, M. J., Clift, S. M., DeMayo, F. J., Bullock, D. W., and Woo, S. L. C. (1989) J. Clin. Invest. 83, 1183-1190). Immunoprecipitation of the PiZ variant from pulse-radiolabeled hepatocytes from the transgenic animals has demonstrated that a minute quantity of the newly synthesized mutant protein is apparently resistant to degradation and accumulates gradually within the particulate fraction of the cell. Although the steady-state level of the resident ER protein grp78/BiP is elevated in response to the accumulation of malfolded proteins within that subcellular compartment, this phenomenon is not elicited by the accumulation of the insoluble PiZ variant. These results indicate that neither the accumulation of this malfolded protein within the ER nor even the distention of that subcellular compartment is sufficient to cause the up-regulation of grp78/BiP levels. The interpretation of these results with regard to the factors that regulate the levels of grp78/BiP in the ER is discussed.
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PMID:Accumulation of the insoluble PiZ variant of human alpha 1-antitrypsin within the hepatic endoplasmic reticulum does not elevate the steady-state level of grp78/BiP. 212 76

Mobilization of sequestered intracellular Ca2+ with EGTA or Ca2+ ionophores severely depresses rates of translational initiation in various mammalian cell types including C6 glial, GH3 pituitary and P3X63Ag8 myeloma cells. Within 2-3 h of continuous exposure to either chelator or ionophore, cells adapt or accommodate such that their rates of amino acid incorporation are restored to 40-70% of those of untreated controls. In GH3 and P3X63Ag8 cells, treatment with either a phorbol ester or a cAMP-elevating agent was required to obtain maximal degrees of accommodation of translational initiation. Following the development of accommodation, cells restored with optimal Ca2+ exhibited rates of amino acid incorporation identical with those of nontreated controls but remained resistance to inhibition on subsequent challenge with EGTA or ionophore. Development of translational tolerance to agents depleting Ca2+ stores did not involve alterations in cellular capacity or affinity for the cation. Invariably, the development of tolerance was preceded by transcriptionally dependent, preferential synthesis of the reticuloplasmin GRP78/BiP. In Ca2(+)-deprived GH3 cells, the synthesis of GRP78 was promoted by phorbol ester and cAMP with the extent of induction correlating directly with the degree of translational tolerance to ionophore. Cells pretreated with dithiothreitol, an alternate inducer of GRP78, also became tolerant to translational inhibition by Ca2+ ionophore or EGTA. Amino acid incorporation in nonsecreting NS-1-cloned myeloma cells, which constitutively express high levels of GRP78 and its mRNA, resisted inhibition by EGTA, ionophore, and dithiothreitol. Antisense oligodeoxynucleotides directed against GRP78 mRNA reduced amino acid incorporation in tolerant, but not in non-tolerant, preparations. These results predicate the existence of a mechanism whereby mammalian cells are capable of rapidly developing translational cross-tolerance to either depletion of sequestered Ca2+ or a reducing environment. A role for nascent GRP78 is strongly implicated in this accommodation mechanism.
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PMID:Accommodation of protein synthesis to chronic deprivation of intracellular sequestered calcium. A putative role for GRP78. 212 77

We have investigated the role of the smooth endoplasmic reticulum (SER) of UT-1 cells in the biogenesis of the glycoprotein (G) of vesicular stomatitis virus (VSV). Using immunofluorescence microscopy, we observed the wild type G protein in the SER of infected cells. When these cells were infected with the mutant VSV strain ts045, the G protein was unable to reach the Golgi apparatus at 40 degrees C, but was able to exit the rough endoplasmic reticulum (RER) and accumulate in the SER. Ribophorin II, a RER marker, remained excluded from the SER during the viral infection, ruling out the possibility that the infection had destroyed the separate identities of these two organelles. Thus, the mechanism that results in the retention of this mutant glycoprotein in the ER at 39.9 degrees C does not limit its lateral mobility within the ER system. We have also localized GRP78/BiP to the SER of UT-1 cells indicating that other mutant proteins may also have access to this organelle. Upon incubation at 32 degrees C, the mutant G protein was able to leave the SER and move to the Golgi apparatus. To measure how rapidly this transfer occurs, we assayed the conversion of the G protein's N-linked oligosaccharides from endoglycosidase H-sensitive to endoglycosidase H-resistant forms. After a 5-min lag, transport of the G protein followed first order kinetics (t1/2 = 15 min). In contrast, no lag was seen in the transport of G protein that had accumulated in the RER of control UT-1 cells lacking extensive SER. In these cells, the transport of G protein also exhibited first order kinetics (t1/2 = 17 min). Possible implications of this lag are discussed.
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PMID:The G protein of vesicular stomatitis virus has free access into and egress from the smooth endoplasmic reticulum of UT-1 cells. 215 42

From 10-min [35S]methionine pulse-labeled Sendai virus-infected BHK cells, an anti-BiP monoclonal antibody precipitated, along with the BiP protein, the hemagglutinin-neuraminidase protein (SV-HN) fivefold better than the fusion protein (SV-Fo). A minimal estimate of 30% of the newly made HN was complexed to BiP. The majority of the HN in the complex was endo-H sensitive and the molar ratio of BiP:HN was estimated to be 1:2. With time, HN dissociated from BiP, and the rate of dissociation was found to be inversely proportional to the rate at which HN acquired its native structure. It is proposed that association with BiP followed by slow release (i) is responsible for the HN slow maturation and (ii) represents a normal step in its maturation pathway.
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PMID:Selective and transient association of Sendai virus HN glycoprotein with BiP. 215 7

To investigate the function of heavy chain binding protein (BiP, GRP 78) in the endoplasmic reticulum, we have characterized its interaction with a model plasma membrane glycoprotein, the G protein of vesicular stomatitis virus. We used a panel of well characterized mutant G proteins and immunoprecipitation with anti-BiP antibodies to determine if BiP interacted with newly synthesized G protein and/or mutant G proteins retained in the endoplasmic reticulum. We made three major observations: 1) BiP bound transiently to folding intermediates of wild-type G protein which were incompletely disulfide-bonded; 2) BiP did not bind stably to all mutant G proteins which remain in the endoplasmic reticulum; and 3) BiP bound stably only to mutant G proteins which do not form correct intrachain disulfide bonds.
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PMID:Heavy chain binding protein recognizes incompletely disulfide-bonded forms of vesicular stomatitis virus G protein. 215 12


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