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)

The kappa-chain of the myeloma MOPC 21 is an unusual L chain, in that it is not secreted unless complexed with a H chain. This nonsecreted kappa-chain seems to be retained in the endoplasmic reticulum in association with the protein BiP/GRP78, both in myeloma cells and when expressed in COS-1 fibroblasts. By assaying the fate of the MOPC 21 kappa-chain and its mutated derivatives in COS-1 cells, we show that the cause of the nonsecreted phenotype is the presence of histidine in position 87 of the variable domain. When this amino acid is changed back to the tyrosine that usually occupies position 87, secretion of the unassembled kappa-chain is restored. As in B lymphoid cells, co-expression of gamma H chains in COS-1 cells complements the mutation in the L chain, and rescues secretion of the arrested kappa. Thus, the presence of histidine at position 87 creates a conditional L chain secretory mutant: it is not compatible with normal transport of free L chain, but can be rescued in the presence of H chain.
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PMID:A conditional secretory mutant in an Ig L chain is caused by replacement of tyrosine/phenylalanine 87 with histidine. 151 62

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

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

The immunoglobulin kappa light chain produced by the CH12 lymphoma is unusual because it is not secreted when expressed in the absence of a heavy chain. Instead, it undergoes rapid intracellular degradation. This degradation is selective, as another light chain expressed in the same cell is not degraded. It is also a property of the CH12 kappa chain itself, since it is degraded rapidly when expressed either in another myeloma cell or in COS-1 fibroblasts. When provided a heavy chain, this kappa chain assembles into IgM and is then protected from proteolysis. The degradation of kappa requires ATP, is sensitive to reduced temperature and to the thiol reagent diamide. Of all the proteolytic inhibitors tested, 3,4-dichloroisocoumarin, L-1-tosylamido-2-phenylethyl chloromethyl ketone, and to a lesser extent 1-chloro-3-tosylamido-7-amino-2-heptanone, inhibit kappa degradation, suggesting the involvement of a serine protease. The degradation of kappa does not require transport to the Golgi complex, nor is it sensitive to a variety of lysosomotropic agents. Both immunofluorescence and the observed association with the endoplasmic reticulum (ER) stress proteins GRP78/BiP and GRP94 indicate that the kappa chain is localized mostly in the ER. When a point mutation which blocks transport to the Golgi complex is introduced into this kappa chain, the association with the stress proteins is enhanced but the rate of degradation is not significantly decreased. We conclude that the CH12 kappa chain is a particularly good substrate for an ER degradation machinery, and that its sensitivity to the protease(s) is governed by its state of assembly. This ER degradation provides a possible quality control mechanism during the differentiation of B lymphocytes.
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PMID:Rapid degradation of an unassembled immunoglobulin light chain is mediated by a serine protease and occurs in a pre-Golgi compartment. 824 27

Not much is known about the features that determine the biological stability of a molecule retained in the endoplasmic reticulum (ER). Ig light (L) chains that are not secreted in the absence of Ig heavy (H) chain expression bind to the ER chaperone BiP as partially folded molecules until they are degraded. Although all Ig L chains have the same three-dimensional structure when part of an antibody molecule, the degradation rate of unassembled Ig L chains is not identical. For instance, the two nonsecreted murine Ig L chains, kappaNS1 and lambdaFS62, are degraded with half-lives of approximately 1 and 4 hr, respectively, in the same NS1 myeloma cells. Furthermore, the BiP/lambdaFS62 Ig L chain complex appears to be more stable than the BiP/kappaNS1 complex. Here, we used the ability of single Ig domains to form an internal disulfide bond after folding as a measure of the folding state of kappaNS1 and lambdaFS62 Ig L chains. Both of these nonsecreted L chains lack the internal disulfide bond in the variable (V) domain, whereas the constant (C) domain was folded in that respect. In both cases the unfolded V domain provided the BiP binding site. The stability of BiP binding to these two nonsecreted proteins was quite different, and both the stability of the BiP:Ig L chain complex and the half-life of the Ig L chain could be transferred from one Ig L chain isotype to the other by swapping the V domains. Our data suggest that the physical stability of BiP association with an unfolded region of a given light chain determines the half-life of that light chain, indicating a direct link between chaperone interaction and delivery of partially folded substrates to the mammalian degradation machinery.
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PMID:The variable domain of nonassembled Ig light chains determines both their half-life and binding to the chaperone BiP. 946 57

We have employed an inverse engineering strategy based on quantitative proteome analysis to identify changes in intracellular protein abundance that correlate with increased specific recombinant monoclonal antibody production (qMab) by engineered murine myeloma (NS0) cells. Four homogeneous NS0 cell lines differing in qMab were isolated from a pool of primary transfectants. The proteome of each stably transfected cell line was analyzed at mid-exponential growth phase by two-dimensional gel electrophoresis (2D-PAGE) and individual protein spot volume data derived from digitized gel images were compared statistically. To identify changes in protein abundance associated with qMab datasets were screened for proteins that exhibited either a linear correlation with cell line qMab or a conserved change in abundance specific only to the cell line with highest qMab. Several proteins with altered abundance were identified by mass spectrometry. Proteins exhibiting a significant increase in abundance with increasing qMab included molecular chaperones known to interact directly with nascent immunoglobulins during their folding and assembly (e.g., BiP, endoplasmin, protein disulfide isomerase). 2D-PAGE analysis showed that in all cell lines Mab light chain was more abundant than heavy chain, indicating that this is a likely prerequisite for efficient Mab production. In summary, these data reveal both the adaptive responses and molecular mechanisms enabling mammalian cells in culture to achieve high-level recombinant monoclonal antibody production.
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PMID:Comparative proteomic analysis of GS-NS0 murine myeloma cell lines with varying recombinant monoclonal antibody production rate. 1545 12

Plasma cells producing high levels of paraprotein are dependent on the unfolded protein response (UPR) and chaperone proteins to ensure correct protein folding and cell survival. We hypothesized that disrupting client-chaperone interactions using heat shock protein 90 (Hsp90) inhibitors would result in an inability to handle immunoglobulin production with the induction of the UPR and myeloma cell death. To study this, myeloma cells were treated with Hsp90 inhibitors as well as known endoplasmic reticulum stress inducers and proteasome inhibitors. Treatment with thapsigargin and tunicamycin led to the activation of all 3 branches of the UPR, with early splicing of XBP1 indicative of IRE1 activation, upregulation of CHOP consistent with ER resident kinase (PERK) activation, and activating transcription factor 6 (ATF6) splicing. 17-AAG and radicicol also induced splicing of XBP1, with the induction of CHOP and activation of ATF6, whereas bortezomib resulted in the induction of CHOP and activation of ATF6 with minimal effects on XBP1. After treatment with all drugs, expression levels of the molecular chaperones BiP and GRP94 were increased. All drugs inhibited proliferation and induced cell death with activation of JNK and caspase cleavage. In conclusion, Hsp90 inhibitors induce myeloma cell death at least in part via endoplasmic reticulum stress and the UPR death pathway.
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PMID:Heat shock protein inhibition is associated with activation of the unfolded protein response pathway in myeloma plasma cells. 1752 89

BiP, GRP94 and PDI, three endoplasmic reticulum (ER) based proteins are involved in the maturation of secretory proteins and might represent a bottleneck in the secretory pathway of monoclonal antibodies (MAB). With the three hybridoma cell lines tested, MAB production kinetics were significantly increased for the batch cultures done in serum-free medium (SFM) with respect to those done in serum-containing medium (SCM). It could be established that there was a correlation between the cellular levels of PDI and GRP94 and the specific MAB production rate. With respect to BiP, no correlation with the MAB production rate was observed. The non-producing myeloma cell line X63, used as a reference, showed increased cellular PDI levels when cultivated in SFM. However, in this cell, the cellular GRP94 levels were not significantly influenced by the medium composition.It was concluded that SFM induced an increase of cellular PDI levels and this elevation seemed to be responsible for the increase in the specific MAB production rates. On the other hand, only MAB producing cells showed an increase in the cellular GRP94 levels which might be a result of increased MAB sythesis. Indeed, I.13.17 cultivated in SFM supplemented with serum showed a significantly reduced (about 50%) specific MAB production rate in comparison to I.13.17 cultivated in non-serum supplemented SFM. The cellular PDI and BiP levels did not vary between these conditions of culture, whereas the cellular GRP94 level was about two-fold lower in I.13.17 cultivated in SFM when supplemented with serum than in I.13.17 cultivated in SFM without futher supplementation. These results are discussed with respect to the medium composition as well as in the context of apparent and potential bottlenecks within the secretory pathway of MAB.
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PMID:Effect of serum-free and serum-containing medium on cellular levels of ER-based proteins in various mouse hybridoma cell lines. 1863 84

Multiple myeloma is an incurable plasma cell malignancy. The 26S proteasome inhibitor, bortezomib, selectively induces apoptosis in multiple myeloma cells; however, the mechanism by which this compound acts remains unknown. Here, we, using immunoblotting analysis, observed that the expression of BiP, CHOP, and XBP-1 is up-regulated in bortezomib-induced apoptosis in human multiple myeloma cell lines NCI-H929 and RPMI-8226/S, strongly suggesting that endoplasmic reticulum (ER) stress response or the unfolded protein response (UPR), a signaling pathway activated by the accumulation of unfolded proteins within ER, is initiated. In the meantime, we also showed that bortezomib inhibited classic ER stressor brefeldin A-induced up-regulation of prosurvival UPR components BiP and XBP-1, resulting in increased induction of apoptosis in multiple myeloma cell lines, raising the possibility that bortezomib induces apoptosis of multiple myeloma cells by means of evoking the severe ER stress but disrupting the prosurvival UPR required. Using caspase inhibitors and a RNA interference approach, we finally confirmed that bortezomib-triggered apoptosis in multiple myeloma cells is dependent on caspase-2 activation, which is associated with ER stress and required for release of cytochrome c, breakdown of mitochondrial transmembrane potential, and its downstream caspase-9 activation. Taken together, these data strongly suggest that caspase-2 can serve as a proximal caspase that functions upstream of mitochondrial signaling during ER stress-induced apoptosis by bortezomib in multiple myeloma cells.
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PMID:Caspase-2 functions upstream of mitochondria in endoplasmic reticulum stress-induced apoptosis by bortezomib in human myeloma cells. 1872 77

The proteasome inhibitor bortezomib (Velcade) effectively eradicates multiple myeloma (MM) cells, partly by activating endoplasmic reticulum (ER) stress apoptotic signaling. However, MM recurrences in bortezomib-treated patients are invariable. We have shown that ER stress signaling can also induce growth arrest and survival in cancer cells. Thus, we hypothesized that bortezomib therapy could induce quiescence and survival of residual MM cells, contributing to disease recurrence. Here, we report that in MM cells, proteasome inhibition with MG-132 or bortezomib results in a surviving cell fraction that enters a prolonged quiescent state (G(0)-G(1) arrest). Mechanism analysis revealed that bortezomib-surviving quiescent cells attenuate eIF2alpha phosphorylation and induction of the ER stress proapoptotic gene GADD153. This occurs independently of the eIF2alpha upstream kinases PERK, GCN2, and PKR. In contrast, the prosurvival ER-chaperone BiP/Grp78 was persistently induced. The bortezomib-surviving quiescent fraction could be eradicated by a simultaneous or sequential combination therapy with salubrinal, an inhibitor of GADD34-PP1C phosphatase complex, and, in consequence, eIF2alpha dephosphorylation. This effect was mimicked by expression of a phosphorylated mimetic eIF2alpha-S51D mutant. Our data indicate that bortezomib can induce growth arrest in therapy-surviving MM cells and that attenuation of eIF2alpha phosphorylation contributes to this survival. Most importantly, this survival mechanism can be blocked by inhibiting eIF2alpha dephosphorylation. Thus, strategies that maintain eIF2alpha in a hyperphosphorylated state may be a novel therapeutic approach to maximize bortezomib-induced apoptosis and reduce residual disease and recurrences in this type of cancer.
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PMID:Inhibition of eIF2alpha dephosphorylation maximizes bortezomib efficiency and eliminates quiescent multiple myeloma cells surviving proteasome inhibitor therapy. 1919 Mar 24

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