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

Immunofluorescence and immunogold labeling, together with sucrose gradient separation and Western blot analysis of microsomal subfractions, were employed in parallel to probe the endoplasmic reticulum in the cell body and dendrites of rat cerebellar Purkinje neurons. Two markers, previously investigated in non-nerve cells, the membrane protein p91 (calnexin) and the lumenal protein BiP, were found to be highly expressed and widely distributed to the various endoplasmic reticulum sections of Purkinje neurons, from the cell body to dendrites and dendritic spines. An antibody (denominated anti-rough-surfaced endoplasmic reticulum), which recognized two membrane proteins, p14 and p40, revealed a similar immunogold labeling pattern. However, centrifugation results consistent with a widespread distribution were obtained for p14 only, while p40 was concentrated in the rough microsome-enriched subfractions. The areas enriched in the inositol 1,4,5-triphosphate receptor and thus presumably specialized in Ca2+ transport (stacks of multiple smooth-surfaced cisternae; the dendritic spine apparatus) also exhibited labeling for BiP and p91, and were positive for the anti-rough-surfaced endoplasmic reticulum antibody (presumably via the p14 antigen). Additional antibodies, that yielded inadequate immunocytochemical signals, were employed only by Western blotting of the microsomal subfractions, while the ryanodine receptor was studied by specific binding. The latter receptor and the Ca2+ ATPase, known in other species to be concentrated in Purkinje neurons, exhibited bimodal distributions with a peak in the light and another in the heavy subfractions. A similar distribution was also observed with another lumenal protein, protein disulfide isomerase. Taken as a whole, the results that we have obtained suggest the existence in the endoplasmic reticulum of Purkinje neurons of two levels of organization; the first identified by widespread, probably general markers (BiP, p91, possibly p14 and others), the second by specialization markers, such as the inositol 1,4,5-triphosphate receptor and, possibly, p40, which appear restricted to areas where specific functions appear to be localized.
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PMID:The endoplasmic reticulum of Purkinje neuron body and dendrites: molecular identity and specializations for Ca2+ transport. 133 57

The human immune system contains T and B lymphocytes which respond in an antigen-specific manner to foreign antigens. These foreign antigens are recognized by multimeric receptors expressed on the cell surface of T and B lymphocytes. The subunits that make up the T and B cell receptor complexes have been identified, but their stoichiometries and positions in the complex remain to be resolved. Elucidation of the quaternary structures is necessary to understand the molecular basis of signal transduction events which follow antigen recognition and will contribute to the design of drugs that can modulate T and B cell responses. Here, I will discuss recent insights into the quaternary structures of the TCR and BCR and the striking similarities between the two, both in the structures of the subunits and in the overall quaternary structures. In addition, the intracellular assembly processes of these receptor complexes will be discussed, as well as the recent realization that these processes appear to be mediated by house-keeping proteins that transiently bind to partial TCR and BCR complexes. Similar to the role of BiP which mediates assembly processes of B cell immunoglobulins, a recently identified intracellular protein of 90 kD, called IP90, appears to play a role in TCR and BCR assembly processes. Analyses of the IP90 protein might contribute not only insight into the folding and assembly processes in lymphocytes, but also into those of newly synthesized proteins in many different cell types.
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PMID:Quaternary structure and assembly process of the T cell receptor. 141 50

The skeletal muscle sarcoplasmic reticulum (SR) was investigated for the presence of well-known endoplasmic reticulum (ER) markers: the lumenal protein BiP and a group of membrane proteins recognized by an antibody raised against ER membrane vesicles. Western blots of SR fractions revealed the presence of BiP in fast- and slow-twitch muscles of the rabbit as well as in rat and chicken muscles. Analyses of purified SR subfractions, together with cryosection immunofluorescence and immunogold labeling, revealed BiP evenly distributed within the longitudinal SR and the terminal cisternae. Within the terminal cisternae BiP appeared not to be mixed with calsequestrin but to be distributed around the aggregates of the latter Ca2+ binding protein. Of the various membrane markers only calnexin (91 kDa) was found to be distributed within both SR subfractions, whereas the other markers (apparent molecular masses of 64 kDa and 58 kDa and a doublet around 28 kDa) were concentrated in the terminal cisternae. These results suggest that the SR is a specialized ER subcompartment in which general markers, such as the ones we have investigated, coexist with the major SR proteins specifically responsible for Ca2+ uptake, storage, and release. The differential distribution of the ER markers reveals new aspects of the SR molecular structure that might be of importance for the functioning of the endomembrane system.
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PMID:The endoplasmic reticulum-sarcoplasmic reticulum connection: distribution of endoplasmic reticulum markers in the sarcoplasmic reticulum of skeletal muscle fibers. 163 Nov

The role of asparagine (N)-linked oligosaccharide chains in intracellular folding of the human chorionic gonadotropin (hCG)-beta subunit was determined by examining the kinetics of folding in Chinese hamster ovary (CHO) cells transfected with wild-type or mutant hCG-beta genes lacking one or both of the asparagine glycosylation sites. The half-time for folding of p beta 1 into p beta 2, the rate-determining step in beta folding, was 7 min for wild-type beta but 33 min for beta lacking both N-linked glycans. The p beta 1-->p beta 2 half-time was 7.5 min in CHO cells expressing the beta subunit missing the Asn13-linked glycan and 10 min for the beta subunit missing the Asn30-linked glycan. The inefficient folding of hCG-beta lacking both N-linked glycans correlated with the slow formation of the last three disulfide bonds (i.e. disulfides 23-72, 93-100, and 26-110) to form in the hCG-beta-folding pathway. Unglycosylated hCG-beta was slowly secreted from CHO cells, and beta subunit-folding intermediates retained in cells for more than 5 h were degraded into a hCG-beta core fragment-like protein. However, coexpression of the hCG-alpha gene enhanced folding and formation of disulfide bonds 23-72, 93-100, and 26-110 of hCG-beta lacking N-linked glycans. In addition, the molecular chaperones BiP, ERp72, and ERp94, but not calnexin, were found in a complex with unglycosylated, unfolded hCG-beta and may be involved in the folding of this beta form. These data indicate that N-linked oligosaccharides assist hCG-beta subunit folding by facilitating disulfide bond formation.
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PMID:The asparagine-linked oligosaccharides of the human chorionic gonadotropin beta subunit facilitate correct disulfide bond pairing. 753 25

Many cell surface proteins exist as complexes of multiple subunits. It is well established that most such complexes are assembled within the endoplasmic reticulum (ER). However, the mechanistic details of the assembly process are largely unknown. We show here that alpha and beta subunits of major histocompatibility complex class II antigens in spleen cells of normal mice pass through a transiently aggregated phase in the ER prior to assembly with the invariant chain (Ii). Aggregates form immediately after synthesis and disappear concomitantly with assembly of mature alpha beta Ii complexes. In spleen cells lacking Ii, aggregates fail to be efficiently dissociated over time, implicating subunit assembly as a requirement for disaggregation. Two ER chaperones, BiP and calnexin, bind to newly synthesized class II MHC chains but do not contribute appreciably to the large size of the aggregates. Our observations suggest that some subunits of multisubunit complexes pass through a transient, dynamic high molecular weight aggregate phase during the physiological process of assembly. The results further suggest a novel role for Ii in promoting stable dissociation of preformed aggregates containing alpha and beta subunits rather than in preventing their formation.
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PMID:Transient aggregation of major histocompatibility complex class II chains during assembly in normal spleen cells. 773 82

Before secretion, newly synthesized thyroglobulin (Tg) folds via a series of intermediates: disulfide-linked aggregates and unfolded monomers-->folded monomers-->dimers. Immediately after synthesis, very little Tg associated with calnexin (a membrane-bound molecular chaperone in the ER), while a larger fraction bound BiP (a lumenal ER chaperone); dissociation from these chaperones showed superficially similar kinetics. Calnexin might bind selectively to carbohydrates within glycoproteins, or to hydrophobic surfaces of secretory proteins while they form proper disulfide bonds (Wada, I., W.-J. Ou, M.-C. Liu, and G. Scheele, J. Biol. Chem. 1994. 269:7464-7472). Because Tg has multiple disulfides, as well as glycans, we tested a brief exposure of live thyrocytes to dithiothreitol, which resulted in quantitative aggregation of nascent Tg, as analyzed by SDS-PAGE of cells lysed without further reduction. Cells lysed in the presence of dithiothreitol under non-denaturing conditions caused Tg aggregates to run as reduced monomers. For cells lysed either way, after in vivo reduction, Tg coprecipitated with calnexin. After washout of dithiothreitol, nascent Tg aggregates dissolved intracellularly and were secreted ultimately. 1 h after washout, > or = 92% of labeled Tg was found to dissociate from calnexin, while the fraction of labeled Tg bound to BiP rose from 0 to approximately 40%, demonstrating a "precursor-product" relationship. Whereas intralumenal reduction was essential for efficient Tg coprecipitation with calnexin, Tg glycosylation was not required. These data are among the first to demonstrate sequential chaperone function involved in conformational maturation of nascent secretory proteins within the ER.
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PMID:Calnexin and BiP act as sequential molecular chaperones during thyroglobulin folding in the endoplasmic reticulum. 782 19

The endoplasmic reticulum (ER) contains molecular chaperones that facilitate the folding of proteins in mammalian cells. Biosynthetic labeling was used to study the interactions of two chaperones, BiP and calnexin, with vesicular stomatitis virus (VSV) glycoprotein (G protein). Coimmunoprecipitation of G protein with the chaperones showed that BiP bound maximally to early folding intermediates of G protein, whereas calnexin bound after a short lag to more folded molecules. Castanospermine, an inhibitor of ER glucosidases, blocked the binding of proteins to calnexin and inhibited G protein folding. Interaction with calnexin was necessary for efficient folding of G protein and for retention of partially folded forms.
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PMID:Folding of VSV G protein: sequential interaction with BiP and calnexin. 793 87

To analyze the early events occurring during the folding and assembly of major histocompatibility complex class I antigens, we used a panel of P815 mouse mastocytoma transfectants expressing wild-type or mutant human leukocyte antigen (HLA)-Cw3 proteins. We observed that newly synthesized unassembled HLA-Cw3 heavy chains (Cw3 alpha) specifically associate with three major long-lived proteins denoted p105, p88 and p78, according to their size. These proteins display different kinetics of interaction. The association of p105 is transient, while p78, which we identified as the immunoglobulin binding protein BiP, interacts permanently with Cw3 alpha chains. Furthermore, the binding of p88, a calnexin candidate, seems delayed compared to that of p105 and p78. As the great majority of newly synthesized Cw3 alpha proteins expressed in P815 cells can associate with cotransfected human beta 2-microglobulin (beta 2m), our observations suggest that multiple molecular chaperones cooperate in the folding of class I heavy chains. We were unable to coimmunoprecipitate detectable levels of these proteins with oligomerized Cw3 alpha chains. However, we could still detect p78/BiP in transient association with mutant HLA-Cw3 heterodimers which were delayed in the endoplasmic reticulum (ER) compared to their wild-type counterparts. In this case, the dissociation of BiP preceded the ER to Golgi transport of these proteins. These results suggest that BiP release is neither related to the process of class I oligomerization nor to the ER retention of class I assembly intermediates.
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PMID:Biogenesis of MHC class I antigens: involvement of multiple chaperone molecules. 795 6

Proteins synthesized in the ER are generally transported to the Golgi complex and beyond only when they have reached a fully folded and assembled conformation. To analyze how the selective retention of misfolded proteins works, we monitored the long-term fate of a membrane glycoprotein with a temperature-dependent folding defect, the G protein of tsO45 vesicular stomatitis virus. We used indirect immunofluorescence, immunoelectron microscopy, and a novel Nycodenz gradient centrifugation procedure for separating the ER, the intermediate compartment, and the Golgi complex. We also employed the folding and recycling inhibitors dithiothreitol and AIF4-, and coimmunoprecipitation with calnexin antibodies. The results showed that the misfolded G protein is not retained in the ER alone; it can move to the intermediate compartment and to the cis-Golgi network but is then recycled back to the ER. In the ER it is associated with calnexin and BiP/GRP78. Of these two chaperones, only BiP/GRP78 seems to accompany it through the recycling circuit. Thus, the retention of this misfolded glycoprotein is the result of multiple mechanisms including calnexin binding in the ER and selective retrieval from the intermediate compartment and the cis-Golgi network.
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PMID:Quality control in the secretory pathway: retention of a misfolded viral membrane glycoprotein involves cycling between the ER, intermediate compartment, and Golgi apparatus. 802 84

The postnatal differentiation of sarcoplasmic reticulum (SR) of rabbit skeletal muscles (the slow-twitch soleus and the fast-twitch adductor muscles) was monitored between Days 1 and 12 by following on Western blots the expression and accumulation of molecular markers specific not only for the muscle endomembrane system, i.e., calsequestrin (CS) and the ryanodine-sensitive Ca2+ release channel, but also for the endoplasmic reticulum (ER) at large, i.e., BiP, calnexin (CN) and calreticulin. Our results demonstrate that SR development, documented by the increase of the SR fractional volume, terminal cisternae proliferation, and reorientation of triads, is accompanied by the accumulation of the SR-specific proteins and also of CN, with no change of the other ER general markers. Moreover, the distribution of two of the markers, BiP and CS, was investigated by immunocytochemistry at both the light and the electron microscope level. At Day 1 CS was found to be concentrated both within the few recognizable triad terminal cisternae and within the lumen of numerous, apparently discrete cisternae and tubules, widely scattered throughout both the contractile and the subplasmalemmal areas of the cytoplasm. These structures remain evident until Day 12, when most triad junctions have acquired proper configuration, composition and orientation. BiP, on the other hand, appears widely distributed within the ER/SR of the fibers. From the early stages of postnatal development it does colocalize with the Ca2+ binding protein in the lumen of the CS-rich structures and appears also within the longitudinal SR and the conventional ER cisternae.
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PMID:The endoplasmic reticulum-sarcoplasmic reticulum connection. II. Postnatal differentiation of the sarcoplasmic reticulum in skeletal muscle fibers. 822 98


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