UNIPROT:P11021 - FACTA Search

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

A procedure was developed for the isolation of reticuloplasm, the luminal material of the endoplasmic reticulum (ER). A reticuloplasm-rich extract was prepared from a murine plasmacytoma cell line that contains large amounts of ER, by first extracting the cytoplasmic contents using hypotonic lysis to yield ER-rich 'shells' followed by mechanical lysis to release the ER contents. The extract contains five major proteins with apparent molecular weights of 100, 75, 60, 58 and 55 (X 10(3] Mr by SDS-polyacrylamide gel electrophoresis. The 100, 75 and 58 (X 10(3] Mr species were identified as the known ER proteins endoplasmin, BiP and PD1, respectively. The ER association of the 60 and 55 (X 10(3] Mr proteins was confirmed by confocal fluorescence microscopy with affinity-purified antibodies. Equilibrium dialysis with isolated reticuloplasm gave a calcium-binding capacity of 300 nmoles calcium per mg protein with half-maximal binding at 3 mM-Ca2+. Purified endoplasmin bound 280 nmoles calcium per mg protein at a calcium concentration of 5 mM-Ca2+. A calcium overlay test revealed that, in addition to endoplasmin, reticuloplasm contained at least three other calcium-binding proteins: i.e. BiP, PDI and the 55 X 10(3) Mr protein, respectively, with endoplasmin and the 55 X 10(3) Mr protein (CRP55) accounting for the major proportion of the calcium-binding activity. Treatment of cells with calcium ionophore led to the specific over-expression of the major calcium-binding reticuloplasmins endoplasmin, BiP and CRP55. These studies show that the lumen of the ER contains a family of proteins with the capacity to bind significant amounts of calcium in the millimolar range and thereby to confer upon the ER the ability to perform a calcium storage function analogous to that of the sarcoplasmic reticulum in muscle cells.
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PMID:Identification of a set of calcium-binding proteins in reticuloplasm, the luminal content of the endoplasmic reticulum. 325 4

Two glucose-regulated proteins, GRP78 and GRP94, are major constituents of the endoplasmic reticulum (ER) of mammalian cells. These proteins are synthesized constitutively in detectable amounts under normal growth conditions; they can also be induced under a variety of conditions of stress including glucose starvation and treatment with drugs that inhibit cellular glycosylation, with calcium ionophores or with amino-acid analogues. Unlike the closely-related heat shock protein (HSP) family, the GRPs are not induced significantly by high temperature. Recently, GRP78 has been identified as the immunoglobulin heavy chain binding protein (BiP) (ref. 5 and Y.K. et al., in preparation) which binds transiently to a variety of nascent, wild-type secretory and transmembrane proteins and permanently to malfolded proteins that accumulate within the ER. We have tested the hypothesis that the presence of malfolded proteins may be the primary signal for induction of GRPs by expressing wild-type and mutant forms of influenza virus haemagglutinin (HA) in simian cells. Only malfolded HAs, whose transport from the ER is blocked, induced the synthesis of GRPs 78 and 94. Additional evidence is presented that malfolding per se, rather than abnormal glycosylation, is the proximal inducer of this family of stress proteins.
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PMID:The presence of malfolded proteins in the endoplasmic reticulum signals the induction of glucose-regulated proteins. 335 47

The reformation of functioning organelles at the end of mitosis presents a problem in vesicle targeting. Using extracts made from Xenopus laevis frog eggs, we have studied in vitro the vesicles that reform the nuclear envelope. In the in vitro assay, nuclear envelope growth is linear with time. Furthermore, the final surface area of the nuclear envelopes formed is directly dependent upon the amount of membrane vesicles added to the assay. Egg membrane vesicles could be fractionated into two populations, only one of which was competent for nuclear envelope assembly. We found that vesicles active in nuclear envelope assembly contained markers (BiP and alpha-glucosidase II) characteristic of the endoplasmic reticulum (ER), but that the majority of ER-derived vesicles do not contribute to nuclear envelope size. This functional distinction between nuclear vesicles and ER-derived vesicles implies that nuclear vesicles are unique and possess at least one factor required for envelope assembly that is lacking in other vesicles. Consistent with this, treatment of vesicles with trypsin destroyed their ability to form a nuclear envelope; electron microscopic studies indicate that the trypsin-sensitive proteins is required for vesicles to bind to chromatin. However, the protease-sensitive component(s) is resistant to treatments that disrupt protein-protein interactions, such as high salt, EDTA, or low ionic strength solutions. We propose that an integral membrane protein, or protein tightly associated with the membrane, is critical for nuclear vesicle targeting or function.
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PMID:A trypsin-sensitive receptor on membrane vesicles is required for nuclear envelope formation in vitro. 339 6

We modified BiP, the resident endoplasmic reticulum (ER) heat shock protein 70, to contain an epitopetag sequence close to the C-terminus (BiP-tag); the epitope is derived from an influenza hemagglutinin (HA) subtype and is recognized by the monoclonal antibody 12CA5. This antibody both immunoprecipitates BiP-tag and detects it on Western blots. Using transient expression of cDNAs in COS cells, we studied the interaction of BiP-tag with several membrane proteins. Consistent with previous work on BiP, BiP-tag bound poorly and transiently to newly made wild-type influenza HA glycoprotein and strongly and irreversibly to an HA mutant that misfolds and is retained in the ER. Most newly made erythropoietin receptor (EPO-R) polypeptides are retained in the ER and degraded there; we show here that, in cotransfected COS cells, newly made EPO-R is bound to BiP-tag prior to its degradation. Thus, by several criteria the BiP-tag molecule is fully functional in binding newly made proteins. Because it can be immunoprecipitated by a readily available antibody, it offers several advantages to the study of protein folding in the ER and the role of chaperones in this process.
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PMID:Epitope tagging of the human endoplasmic reticulum HSP70 protein, BiP, to facilitate analysis of BiP--substrate interactions. 748 69

During the process of folding and assembly of antibody molecules in the endoplasmic reticulum, immunoglobulin heavy and light chains associate transiently with BiP, a resident endoplasmic reticulum protein that is a member of the Hsp70 family of molecular chaperones. BiP is thought to recognize unfolded or unassembled polypeptides by binding extended sequences of approximately seven amino acids that include bulky hydrophobic residues not normally exposed on the surface of native proteins. We used a computer algorithm developed to predict BiP binding sites within protein primary sequences to identify sites within immunoglobulin chains that might mediate their association with BiP. Very few of the sequential heptapeptides in the heavy or light chain sequences were potential BiP binding sites. Analysis of the ability of synthetic heptapeptides corresponding to 24 potential sites in heavy chains to stimulate the ATPase activity of BiP indicated that at least half of them were authentic BiP binding sequences. These sequences were not confined to a single domain of the heavy chain but were distributed within both the VH and CH domains. Interestingly, when the BiP binding sequences were mapped onto the three-dimensional structure of the Fd antibody fragment, the majority involve residues that participate in contact sites between the heavy and light chains. Therefore, we suggest that in vivo BiP chaperones the folding and assembly of antibody molecules by binding to hydrophobic surface regions on the isolated immunoglobulin chains that subsequently participate in interchain contacts.
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PMID:BiP binding sequences in antibodies. 749 21

In a study to investigate the ability of chaperones to modulate src kinase activity, it was observed that BiP, a member of the HSP70 family found in the endoplasmic reticulum, is an excellent substrate for src kinase in vitro. The reaction requires polylysine and the results suggest that two tyrosine residues are phosphorylated. Although there is no evidence for this reaction in vivo, it does provide a very efficient method to label BiP.
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PMID:BiP is a substrate for src kinase in vitro. 751 74

In order to determine whether the endoplasmic reticulum (ER) luminal FK506-binding protein, FKBP13, shares properties of ER molecular chaperones, MDCK cells were treated with either tunicamycin or Ca2+ ionophores. By Northern-blot analysis, tunicamycin resulted in a 2-fold rise in FKBP13 mRNA, whereas ionophores (A23187 and ionomycin) caused a more impressive rise in FKBP13 mRNA (up to 5-fold with ionomycin). Actinomycin D chase experiments in ionomycin-treated cells revealed no change in the half-life of FKBP13 mRNA, indicating that the increase in FKBP13 mRNA observed was not due to greater message stability. Moreover, sequencing of the 5' flanking region of the gene for murine FKBP13 revealed significant similarity to similar regions in human BiP (immunoglobulin-binding protein) and the human glucose-regulated protein grp94, including a 37 bp sequence in FKBP13 with approximately 50% identity with the unfolded protein response element of the BiP gene. Together, these data suggest a role for FKBP13 in ER protein folding.
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PMID:Induction of the FK506-binding protein, FKBP13, under conditions which misfold proteins in the endoplasmic reticulum. 752 46

BiP is a member of the Hsp70 heat shock protein family found in the lumen of the endoplasmic reticulum, that binds to a variety of proteins destined to be secreted. Substance P (SP) has been used as a model peptide to study the interaction of BiP with protein substrates. SP stimulates BiP ATPase activity and forms a stable complex with BiP that is dissociated in the presence of levels of ATP > 50 microM. At lower concentrations of ATP, the SP remains bound to BiP, and the results are consistent with the view that a BiP-ATP complex is initially formed that reacts with SP to form a ternary complex, SP-BiP-ATP. Hydrolysis of ATP in this complex yields a SP-BiP-ADP complex. An exchange of ATP with ADP bound to BiP has also been demonstrated, and the results suggest that the interactions of BiP with ATP resemble those seen with GTP-binding proteins and GTP.
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PMID:Similarity of nucleotide interactions of BiP and GTP-binding proteins. 752 51

High-level gene expression does not always lead to corresponding high-level secretion of heterologous proteins in yeast. The rate-limiting step in many cases has been shown to exit from the endoplasmic reticulum (ER). Within the ER, the correct folding of secreted proteins is required for export competence; hence, the cellular proteins involved in these events are likely to be important for efficient secretion. We have found that the extractable levels of two ER-resident proteins involved in folding--heavy chain binding protein (BiP) and protein disulfide isomerase (PDI)--are significantly reduced by prolonged constitutive overexpression of human granulocyte colony stimulating factor (GCSF), human erythropoietin, or Schizosaccharomyces pombe acid phosphatase. However, the rate of BiP synthesis measured in pulse--chase radiolabeling experiments is not reduced by GCSF overexpression, and galactose-directed transcription of the BiP gene does not restore normal BiP protein levels once they have been depleted. The observed loss of lumenal resident proteins, either by proteolysis or irreversible aggregation, is expected to contribute significantly to the inefficiency of foreign protein secretion in yeast.
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PMID:Constitutive overexpression of secreted heterologous proteins decreases extractable BiP and protein disulfide isomerase levels in Saccharomyces cerevisiae. 753 23

The murine Wnt family of proteins consists of at least 12 members that possess significant amino acid homology. Current evidence suggests that these proteins are secreted cell-signaling molecules which are likely to have multiple roles during both embryonic development and oncogenesis. Although the biochemical properties of Wnt-1 have been thoroughly examined, less is known about the characteristics of other Wnt family members. We have compared the properties of six murine Wnt proteins (Wnt-1, Wnt-3a, Wnt-5a, Wnt-5b, Wnt-6, and Wnt-7b) transiently expressed in COS cells. All members enter the endoplasmic reticulum (ER) and are glycosylated. However, all six Wnt proteins are primarily retained in the ER in association with BiP, a resident ER protein that binds to improperly folded proteins and prevents their secretion and/or promotes proper folding. Although all Wnt family members examined are similarly processed, one notable difference was identified. Whereas addition of suramin to COS cell cultures significantly increases the levels of all six Wnts in the medium, the addition of heparin only influences the levels of Wnt-1, Wnt-6, and Wnt-7b.
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PMID:Biochemical analysis of murine Wnt proteins reveals both shared and distinct properties. 755 45

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