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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.  相似文献   

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CYP2E1 causes oxidative stress mediated cell death; the latter is one mechanism for endoplasmic reticulum (ER) stress in the cell. Unfolded proteins accumulate during ER stress and ER resident proteins GRP78 and GRP94 protect cells against ER dysfunction. We examined the possible role of GRP78 and GRP94 as protective factors against CYP2E1-mediated toxicity in HepG2 cells expressing CYP2E1 (E47 cells). E47 cells expressed high levels of CYP2E1 protein and catalytic activity which is associated with increased ROS generation, lipid peroxidation and the elevated presence of ubiquinated and aggregated proteins as compared to control HepG2 C34 cells which do not express CYP2E1. The mRNA and protein expression of GRP78 and GRP94 were decreased in E47 cells compared to the C34 cells, which may explain the accumulation of ubiquinated and aggregated proteins. Expression of these GRP proteins was induced with the ER stress agent thapsigargin in E47 cells, and E47 cells were more resistant to the toxicity caused by thapsigargin and calcimycin, possibly due to this upregulation and also because of the high expression of GSH and antioxidant enzymes in E47 cells. Antioxidants such as trolox and N-acetylcysteine increased GRP78 and GRP94 levels in the E47 cells, suggesting that CYP2E1- derived oxidant stress was responsible for down regulation of these GRPs in the E47 cells. Thapsigargin mediated toxicity was decreased in cells treated with the antioxidant trolox indicating a role for oxidative stress in this toxicity. These results suggest that CYP2E1 mediated oxidative stress downregulates the expression of GRP proteins in HepG2 cells and oxidative stress is an important mechanism in causing ER dysfunction in these cells.  相似文献   

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The hemagglutinin-neuraminidase (HN) integral membrane protein of paramyxoviruses is expressed at the cell surface as a tetramer consisting of a pair of disulfide-linked dimers. HN has a large C-terminal ectodomain, a 19-residue uncleaved signal-anchor domain, and a 17-residue N-terminal cytoplasmic tail. Various mutant HN genes were constructed to examine the role of residues flanking the signal-anchor domain, including the cytoplasmic tail, on assembly and intracellular transport of the HN glycoprotein. Expression of the altered genes showed that by 90 min after synthesis the majority of the mutant HN proteins were in a conformationally mature form as assayed by their reactivity with conformation-specific monoclonal antibodies. However, the mutant proteins showed varied endoplasmic reticulum-to-Golgi apparatus transport rates, ranging from that of wild-type HN (t1/2 approximately 90 min) to slowly transported molecules (t1/2 approximately 5 h) and to molecules in which transport was not detected. Pulse-chase experiments indicated that the altered HN molecules had a specific and transient interaction with the resident endoplasmic reticulum protein GRP78-BiP, and thus the altered HN molecules were not retained in the endoplasmic reticulum by a prolonged interaction with GRP78-BiP. Sucrose density gradient sedimentation analysis of the mutant HN molecules indicated that they all had an oligomeric form that differed from that of wild-type HN; most of the molecules were found as disulfide-linked dimers rather than as tetramers. These data suggest that the HN cytoplasmic tail may function in the assembly of the final transport-competent oligomeric form of HN and that mutant HN molecules with seemingly properly folded ectodomains are retained in the endoplasmic reticulum by an as yet unidentified mechanism. The possible role of the HN cytoplasmic tail as a signal for intracellular transport is discussed.  相似文献   

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Activation of the intrinsic apoptotic pathway represents a major mechanism for breast cancer regression resulting from anti-estrogen therapy. The BH3-only protein BIK is inducible by estrogen-starvation and anti-estrogen treatment and plays an important role in anti-estrogen induced apoptosis of breast cancer cells. BIK is predominantly localized to the endoplasmic reticulum where it regulates BAX/BAK-dependent release of Ca(2+) from the endoplasmic reticulum stores and cooperates with other BH3-only proteins such as NOXA to cause rapid release of cytochrome c from mitochondria and activate apoptosis. BIK is also known to inactivate BCL-2 through complex formation. Previously, we demonstrated that apoptosis triggered by BIK in estrogen-starved human breast cancer cells is suppressed by GRP78, a major endoplasmic reticulum chaperone. Here we described the isolation of a novel clonal human breast cancer cell line (MCF-7/BUS-10) resistant to long-term estrogen deprivation. These cells exhibit elevated level of GRP78, which protects them from estrogen starvation-induced apoptosis. Our studies revealed that overexpression of GRP78 suppresses apoptosis induced by BIK and NOXA, either alone or in combination. Surprisingly, the interaction of GRP78 with BIK does not require its BH3 domain, which has been implicated in all previous BIK protein interactions. We further showed GRP78 and BCL-2 form independent complex with BIK and that increased expression of GRP78 decreases BIK binding to BCL-2. Our findings provide the first evidence that GRP78 can decrease BCL-2 sequestration by BIK at the endoplasmic reticulum, thus uncovering a potential new mechanism whereby GRP78 confers endocrine resistance in breast cancer.  相似文献   

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MTJ-1 associates with a glucose-regulated protein of Mr approximately 78,000(GRP78) in the endoplasmic reticulum and modulates GRP78 activity as a chaperone. GRP78 also exists on the cell surface membrane, where it is associated with a number of functions. MHC class I Ags on the cell surface are complexed to GRP78. GRP78 also serves as the receptor for alpha2-macroglobulin-dependent signaling and for uptake of certain pathogenic viruses. The means by which GRP78, lacking a transmembrane domain, can fulfill such functions is unclear. In this study we have examined the question of whether MTJ-1, a transmembrane protein, is involved in the translocation of GRP78 to the cell surface. MTJ-1 and GRP78 coimmunoprecipitated from macrophage plasma membrane lysates. Silencing of MTJ-1 gene expression greatly reduced MTJ-1 mRNA and protein levels, but also abolished cell surface localization of GRP78. Consequently, binding of the activated and receptor-recognized form of alpha2-macroglobulin to macrophages was greatly reduced, and activated and receptor-recognized form of alpha2-macroglobulin-induced calcium signaling was abolished in these cells. In conclusion, we show that in addition to assisting the chaperone GRP78 in protein quality control in the endoplasmic reticulum, MTJ-1 is essential for transport of GRP78 to the cell surface, which serves a number of functions in immune regulation and signal transduction.  相似文献   

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A differentiation-related gelatin-binding 46 kilodalton (kDa) glycoprotein in myoblasts (GP46, colligin) shares several properties with the 78-kDa glucose-regulated protein (GRP78), including location in the endoplasmic reticulum and related C-terminal sequences. These similarities extend to stress inducibility, since we find that GP46 is a heat-shock protein; its synthesis is elevated at 42 degrees C, resulting in a two- to three-fold increase in protein level. Further, GRP78 is a gelatin-binding protein; together with GP46 it is retained on gelatin-Sepharose beads. GRP78 and GP46 do not interact; each protein can be individually eluted, GP46 at low pH and GRP78 by ATP. These results suggest that the proteins have distinct roles in the synthesis of collagen and point to a simple method for purification.  相似文献   

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GRP78 is a resident protein of the endoplasmic reticulum (ER) and a member of the glucose regulated protein (GRP) family. Many secretion incompetent proteins are found in stable association with GRP78 and are retained in the ER. Some proteins which are destined for secretion transiently associate with GRP78. To further increase our understanding of the role of GRP78 in secretion, we have stably overexpressed GRP78 in Chinese hamster ovary (CHO) cells and examined the effect on protein secretion and the stress response. GRP78 overexpressing cells treated with tunicamycin or A23187 exhibited a reduced induction of endogenous GRP78 and GRP94 mRNAs compared to wild-type CHO cells. This suggests that GRP78 overexpression either alleviates the stress or is directly involved in signaling stress-induced expression of GRPs. Transient expression of secreted proteins was used to measure secretion efficiency in the GRP78 overexpressing cells. Secretion of von Willebrand factor and a mutant form of factor VIII, two proteins which transiently associate with GRP78, was reduced by GRP78 overexpression. In contrast, secretion of M-CSF, which was not detected in association with GRP78, was unaffected. This indicates that elevated levels of GRP78 may increase stable association and decrease the secretion efficiency of proteins which normally transiently associate with GRP78. These results indicate that one function of GRP78 is selective protein retention in the ER.  相似文献   

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Interaction of murine BiP/GRP78 with the DnaJ homologue MTJ1   总被引:2,自引:0,他引:2  
The activity of Hsp70 proteins is regulated by accessory proteins, among which the most studied are the members of the DnaJ-like protein family. BiP/GRP78 chaperones the translocation and maturation of secreted and membrane proteins in the endoplasmic reticulum. No DnaJ-like partner has been described so far to regulate the function of mammalian BiP/GRP78. We show here that murine BiP/GRP78 interacts with the lumenal J domain of the murine transmembrane protein MTJ1 (J-MTJ1). J-MTJ1 stimulates the ATPase activity of BiP/GRP78 at stoichiometric concentrations. The C-terminal tail of BiP/GRP78 is not required for the interaction with J-MTJ1, leaving the function of this portion of the molecule still unclear. Physical interactions between J-MTJ1 and BiP/GRP78 are stable and can be abolished by a single histidine --> glutamine substitution in the highly conserved HPD motif shared by all DnaJ-like proteins. The J-MTJ1 fragment, but not the mutant J-MTJ1:H89Q fragment, stimulates the ATPase activity of Escherichia coli DnaK, although at a higher concentration than its genuine partner DnaJ. Full-length DnaJ does not stimulate BiP over the range of concentrations investigated. These results indicate that the J domain of MTJ1 is sufficient for its interaction with BiP/GRP78 and cannot be substituted by E. coli DnaJ.  相似文献   

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