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)

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

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

We have studied the binding of synthetic peptides to three hsp70 molecular chaperones, DnaK, BiP, and hsc70, as a model for the interaction of hsp70 proteins with unfolded regions of target polypeptides. We measured the ability of 53 peptides to inhibit the formation of complexes between the hsp70 proteins and denatured lactalbumin. Peptides that bound with highest affinity to all three hsp70 proteins contained stretches of at least 7 residues that included large hydrophobic and basic amino acids, but few or no acidic residues. Amino acid substitutions within one heptameric peptide showed that an important feature for its binding to all three chaperones was a large hydrophobic residue in position 4, while specificity differences between the chaperones were revealed by substitutions at positions 2 and 6. Such specificity differences were frequently observed with other peptides, the most extreme example being a peptide rich in basic residues that bound with high affinity to DnaK, intermediate affinity to hsc70, and negligible affinity to BiP. Substitution of a lysine residue at position 2 in this peptide by tyrosine abolished the specificity difference by increasing the affinities of the DnaK and hsc70 proteins 5- and 20-fold, respectively, and that of BiP by greater than 2 orders of magnitude. Thus, hsp70 proteins can exhibit common or exclusive binding specificities, depending on the peptide sequence.
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PMID:Common and divergent peptide binding specificities of hsp70 molecular chaperones. 798 63

The mouse autosomal dominant mutation Mody develops hyperglycemia with notable pancreatic beta-cell dysfunction. This study demonstrates that one of the alleles of the gene for insulin 2 in Mody mice encodes a protein product that substitutes tyrosine for cysteine at the seventh amino acid of the A chain in its mature form. This mutation disrupts a disulfide bond between the A and B chains and can induce a drastic conformational change of this molecule. Although there was no gross defect in the transcription from the wild-type insulin 2 allele or two alleles of insulin 1, levels of proinsulin and insulin were profoundly diminished in the beta cells of Mody mice, suggesting that the number of wild-type (pro)insulin molecules was also decreased. Electron microscopy revealed a dramatic reduction of secretory granules and a remarkably enlarged lumen of the endoplasmic reticulum. Little proinsulin was processed to insulin, but high molecular weight forms of proinsulin existed with concomitant overexpression of BiP, a molecular chaperone in the endoplasmic reticulum. Furthermore, mutant proinsulin expressed in Chinese hamster ovary cells was inefficiently secreted, and its intracellular fraction formed complexes with BiP and was eventually degraded. These findings indicate that mutant proinsulin was trapped and accumulated in the endoplasmic reticulum, which could induce beta-cell dysfunction and account for the dominant phenotype of this mutation.
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PMID:A mutation in the insulin 2 gene induces diabetes with severe pancreatic beta-cell dysfunction in the Mody mouse. 988 31

Transformed yeasts producing a mutant form of bovine beta-lactoglobulin (beta-LG), W19Y, in which Trp(19) was replaced with Tyr, were shown to secrete 6 times more than those producing wild type beta-LG. Northern blot analysis suggested that the enhanced level of secretion was not the result of upregulated transcription of W19Y. The ratio of the amount of W19Y secreted into the supernatant to the amount of W19Y remaining inside the cells was much larger than that in the case of wild type beta-LG as shown by immunoblot analysis. A pulse/chase experiment revealed that the speed of secretion of W19Y was significantly accelerated, compared to wild type beta-LG. These results indicated that W19Y was more efficiently and rapidly transported in the course of secretion than wild type beta-LG. Our previous study showed that the DeltaG of unfolding of W19Y in water is 6.9 kcal/mol smaller than that of wild type beta-LG. Furthermore, immunoblot analysis of intracellular beta-LG under non-reducing conditions indicated that W19Y as well as wild type beta-LG maintained a specific folded structure inside the yeast cells, whereas other non-secretable mutant beta-LGs with Phe or Ala at position 19 (W19F and W19A, respectively) did not. These data suggest that low molecular stability and the maintenance of a specific folded structure inside the yeast cells are prerequisites for efficient and rapid secretion. W19Y was more efficiently secreted than wild type beta-LG also in transformed ern1 mutant yeast cells expressing only a basal level of BiP which is considered to function in quality control in the endoplasmic reticulum (ER) by playing an important role in determining the secretion efficiency of secretory proteins. Thus, the reason for the enhanced secretion of W19Y is considered to be that the improved folding ability of W19Y can allow the half-life of the W19Y-BiP complex to become shorter than that of the wild type beta-LG-BiP complex, leading to faster translocation of W19Y into transport vesicles, or that W19Y can fold in a BiP-independent manner in the ER of the yeast cells. Our findings demonstrate that the amount of protein secreted can be improved by alteration of a single amino acid residue crucial for its structure.
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PMID:Accelerated secretion of mutant beta-lactoglobulin in Saccharomyces cerevisiae resulting from a single amino acid substitution. 1040 52

Vascular smooth muscle cells (VSMC) express three isoforms of the sarcoplasmic or endoplasmic reticulum Ca2+-ATPase (SERCA) pump; SERCA2b predominates (91%), whereas SERCA2a (6%) and SERCA3 (3%) are present in much smaller amounts. Treatment with thapsigargin (Tg) or A-23187 increased the level of mRNA encoding SERCA2b four- to fivefold; SERCA3 increased about 10-fold, whereas SERCA2a was unchanged. Ca2+ chelation prevented the Tg-induced SERCA2b increase, whereas Ca2+ elevation itself increased SERCA2b expression. These responses were discordant with those of 78-kDa glucose-regulated protein/immunoglobulin-binding protein (grp78/BiP), an endoplasmic reticulum stress-response protein. SERCA2b mRNA elevation was much larger than could be accounted for by the observed increase in message stability. The induction of SERCA2b by Tg did not require protein synthesis, nor was it affected by inhibitors of calcineurin, protein kinase C, Ca2+/calmodulin-dependent protein kinase, or tyrosine protein kinases. Treatment with the nonselective protein kinase inhibitor H-7 prevented Tg-induced SERCA2b expression from occurring, whereas another nonselective inhibitor, staurosporine, was without effect. We conclude that changes in cytosolic Ca2+ control the expression of SERCA2b in VSMC via a mechanism involving a currently uncharacterized, H-7-sensitive but staurosporine-insensitive, protein kinase.
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PMID:Regulation of SERCA Ca2+ pump expression by cytoplasmic Ca2+ in vascular smooth muscle cells. 1124 1

The endoplasmic reticulum (ER) quality-control machinery maintains the fidelity of the maturation process by sorting aberrant proteins for ER-associated protein degradation (ERAD), a process requiring retrotranslocation from the ER lumen to the cytosol and degradation by the proteasome. Here, we assessed the role of N-linked glycans in ERAD by monitoring the degradation of wild-type (Tyr) and albino mutant (Tyr(C85S)) tyrosinase. Initially, mutant tyrosinase was established as a genuine ERAD substrate using intact melanocyte and semi-permeabilized cell systems. Inhibiting mannose trimming or accumulating Tyr(C85S) in a monoglucosylated form led to its stabilization, supporting a role for lectin chaperones in ER retention and proteasomal degradation. In contrast, ablating the lectin chaperone interactions by preventing glucose trimming caused a rapid disappearance of tyrosinase, initially due to the formation of protein aggregates, which were subsequently degraded by the proteasome. The co-localization of aggregated tyrosinase with protein disulfide isomerase and BiP, but not calnexin, supports an ER organization, which aids in protein maturation and degradation. Based on these studies, we propose a model of tyrosinase degradation in which interactions between N-linked glycans and lectin chaperones help to minimize tyrosinase aggregation and also target non-native substrates for retro-translocation and subsequent degradation.
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PMID:Carbohydrates act as sorting determinants in ER-associated degradation of tyrosinase. 1516 41

Sarcolipin (SLN) and phospholamban (PLN) are effective inhibitors of the sarco(endo)plasmic reticulum Ca(2+)-ATPase (SERCA). These homologous proteins differ at their N and C termini: the C-terminal Met-Leu-Leu in PLN is replaced by Arg-Ser-Tyr-Gln-Tyr in SLN. The role of the C-terminal sequence of SLN tagged N-terminally with the FLAG epitope (NF-SLN) in endoplasmic reticulum (ER) retention was investigated by transfecting human embryonic kidney-293 cells with cDNAs encoding NF-SLN or a series of NF-SLN mutants in which C-terminal amino acids were deleted progressively. Immunofluorescence and immunoblotting of transfected cells by using anti-FLAG antibodies indicated that NF-SLN and PLN tagged at its N terminus with the FLAG epitope, even when overexpressed, were restricted to the ER. However, C-terminal truncation deletions of SLN, which lacked RSYQY, were not localized to ER and did not inhibit Ca(2+)-dependent Ca2+ uptake by SERCA. The shortest deletion constructs, NF-SLN 1-22 and NF-SLN 1-23, did not express stable protein products. However, all NF-SLN cDNA constructs, including NF-SLN 1-22 and NF-SLN 1-23, were expressed stably and localized to the ER when they were coexpressed with SERCA2a. These results show that NF-SLN subcellular distribution depends on SERCA coexpression and on its luminal, C-terminal RSYQY sequence. By using immunoprecipitation and MS, glucose-regulated protein 78/BiP and glucose-regulated protein 94 were identified as proteins that interact with NF-SLN through the RSYQY sequence. Thus, in the absence of SERCA, retention of NF-SLN in the ER is mediated through its association with other components through the C-terminal RSYQY sequence.
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PMID:Sarcolipin retention in the endoplasmic reticulum depends on its C-terminal RSYQY sequence and its interaction with sarco(endo)plasmic Ca(2+)-ATPases. 1555 94

TFII-I is a signal-induced multi-functional transcription factor that has recently been implicated as a regulatory component of the endoplasmic reticulum (ER) stress response. TFII-I acts through ER stress-induced binding to the ER stress element, which is highly conserved in promoters of ER stress-inducible genes such as Grp78/BiP. Interestingly, its tyrosine phosphorylation sites are required for its activation of the Grp78 promoter. Toward understanding the link between TFII-I, the tyrosine kinase signaling pathway, and Grp78 activation, we discovered that Tg stress induces a dramatic increase of TFII-I phosphorylation at Tyr248 and localization of this form of TFII-I to the nucleus. Chromatin immunoprecipitation analysis further reveals enhanced TFII-I binding to the Grp78 promoter in vivo upon ER stress. Previously, we reported that genistein, a general inhibitor of tyrosine kinase, could suppress ER stress induction of Grp78 by inhibiting complex formation on the ER stress element; however, the mechanism is not known. Consistent with TFII-I being a target of genistein suppression, we observed that genistein could suppress Tg stress-induced phosphorylation of TFII-I. We further demonstrate that c-Src, which is one of kinases identified to mediate phosphorylation of TFII-I at Tyr248, is activated by Tg stress and is able to stimulate the Grp78 promoter activity. Lastly, using stable cell lines with suppressed TFII-I levels, we show that TFII-I is required for optimal induction of Grp78 by ER stress. Our studies provide a molecular link that connects the c-Src tyrosine kinase transduction pathway to ER stress-induced transcriptional activation of Grp78 mediated by TFII-I.
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PMID:Transcriptional regulation of the Grp78 promoter by endoplasmic reticulum stress: role of TFII-I and its tyrosine phosphorylation. 1566 86

Metabolic labeling studies were conducted in freshly isolated mouse islets and a beta-cell line (MIN6) to examine the effects of proteasome inhibition on glucose-stimulated (pro)insulin synthesis and secretion. Glucose-stimulated (pro)insulin synthesis, as determined by the incorporation of [(3)H]tyrosine, decreased significantly by 90% in islets and 71% in MIN6 cells pretreated with the proteasome inhibitor lactacystin (10 microM) for 2 h. To follow the fate of newly synthesized (pro)insulin, islets were pulse-labeled with [(3)H]tyrosine (40 microCi) for 20 min and chased +/- lactacystin (10 microM) for up to 4 h. The release of newly synthesized (pro)insulin ([(3)H]tyrosine-labeled) was similar between lactacystin-treated and control islets despite a 51% decrease (p <0.05) in total immunoreactive (pro)insulin secretion by lactacystin-treated islets. The specific radioactivity of [(3)H]tyrosine-labeled (pro)insulin in the extracellular medium of lactacystin-treated islets (0.52 +/- 0.16 cpm/microunits) was 2-fold greater relative to control islets (0.25 +/- 0.06 cpm/microunits). Induction of the unfolded protein response by lactacystin, as evidenced by the up-regulation of endoplasmic reticulum (ER) chaperones (GRP78/BiP, GRP94, protein disulfide isomerase) and induction of the stress-inducible transcription factor C/EBP-homologous protein/GADD153 (CHOP/GADD153), likely contributed to the release of newly synthesized (pro)insulin to relieve ER stress. The present data indicate proteasome inhibition did not prevent, but increased (p <0.05), the intracellular degradation of [(3)H]tyrosine-labeled (pro-)insulin from 8 to 24% in islets. Collectively, these data indicate beta-cells may balance glucose-stimulated (pro)insulin synthesis and secretion with the activity of the proteasome to regulate protein concentrations in the ER.
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PMID:Proteasome inhibition alters glucose-stimulated (pro)insulin secretion and turnover in pancreatic {beta}-cells. 1570 91


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