Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hexavalent chromium compounds are carcinogenic to humans, are potent inducers of tumors in experimental animals, and can neoplastically transform cells in culture. In this study, the effects of sodium chromate on the expression of the 78-kDa glucose-regulated protein (GRP78) gene and on general transcription were investigated with respect to the DNA damage induced by this agent. DNA single-strand breaks, DNA-protein cross-links, and chromium-DNA adducts were present in CHO cells immediately after 2 h of treatment with sodium chromate. Subsequently, these types of damage were repaired at different rates. Single-strand breaks were essentially repaired after 8 h. By 24 h posttreatment, no cross-links remained in cells exposed to 30 or 150 microM chromate, although cells treated with the 300-microM concentration still contained cross-links at that time. DNA-chromium adducts remained unrepaired for at least 32 h. The moderate constitutive level of GRP78 mRNA was not affected by chromate. Chromate did, however, suppress induction of this gene by tunicamycin in a concentration-and time-dependent manner. Thirty micromolar sodium chromate (96% survival), which caused the least DNA damage, had no effect on GRP78 induction, general RNA synthesis, or mRNA synthesis. Induction of GRP78 was suppressed immediately and 12 h after treatment with 150 microM chromate (54% survival), although there was a partial recovery of induction at 24 h after treatment, which correlated with the repair of DNA-protein cross-links. In contrast, both total cytoplasmic RNA and mRNA synthesis were suppressed by approximately 60-75% for at least 32 h by 150 microM chromate. At the 300-microM concentration (8% survival), where DNA-protein cross-links persisted beyond 24 h, GRP78 induction was totally suppressed for at least 24 h, while total RNA and mRNA synthesis were suppressed by 80-90% for at least 32 h. Overall, the effects of chromate on GRP78 induction correlated most closely with the presence of DNA-protein cross-links, but suppression of total RNA and mRNA synthesis correlated with the presence of DNA-chromium adducts. These results indicate that chromate exerts differential effects on the induction of the GRP78 gene and on general transcription.
Mol Carcinog 1992
PMID:Transcriptional inhibition by carcinogenic chromate: relationship to DNA damage. 128 64

Mouse lymphoma cell line W7MG1 is stably infected with mouse mammary tumor virus and produces the viral envelope glycoprotein precursor Pr74, but the mature envelope proteins gp52 and gp33, which are derived from Pr74 by posttranslational processing, are produced only when the cells are cultured with a glucocorticoid agonist. The current study demonstrated that even when W7MG1 cells are grown with hormone, the conversion of Pr74 to gp52 and gp33 is an inefficient process in this cell line. At least 2 h of exposure to glucocorticoid were required to induce the appearance of gp52 and gp33; furthermore, Pr74 labeled in the absence of hormone was not converted to gp52 and gp33 upon subsequent addition of hormone. RNA synthesis inhibitors blocked the hormonal induction of gp52 and gp33, indicating that the hormone acts by promoting the expression of a new gene(s) required for the production of gp52 and gp33, rather than by inhibiting the expression of a gene(s) that prevents processing of Pr74. Subcellular fractionation studies demonstrated that Pr74 produced in either the presence or absence of hormone was associated primarily with the ER, whereas gp52 and gp33 were found in the Golgi and plasma membrane fractions. The Pr74 molecules from W7MG1 cells grown either with or without glucocorticoid coimmunoprecipitated with BiP/GRP78 and sedimented as aggregates of heterogeneous size. In contrast, Pr74 from virus-producing GR3A mouse mammary tumor cells, which process Pr74 more efficiently, sedimented as apparent monomers, dimers, and trimers.(ABSTRACT TRUNCATED AT 250 WORDS)
Mol Endocrinol 1992 Mar
PMID:The effect of glucocorticoid on the subcellular localization, oligomerization, and processing of mouse mammary tumor virus envelope protein precursor Pr74. 131 42

Previous observations that extracellular calcium (Ca2+) enhanced PRL mRNA levels posttranscriptionally in GH3 rat pituitary tumor cells were made using double-stranded transcription probes. The effects of Ca2+ and the Ca2+ ionophore, ionomycin, on PRL gene expression in GH3 and 235-1 cells were investigated using site- and strand-specific probes. Treatment of GH3 and 235-1 cells with 0.5 mM Ca2+ in serum-free medium specifically increased PRL mRNA levels by severalfold. In 235-1 but not GH3 cells PRL gene transcription was comparably induced by Ca2+. Use of single-stranded 5' and 3' probes revealed no antisense transcription, nor any Ca2+ effect on transcriptional elongation. Treatment with Ca2+ plus ionomycin inhibited PRL mRNA levels and gene transcription in both cell lines. Although their PRL gene transcription rates are similar, several basic differences were noted between the cell lines. The 235-1 cells exhibit a different profile of nuclear PRL pre-RNAs than GH3 cells. Also, mRNA levels for a Ca(2+)-regulated gene (GRP78) did not change in Ca(2+)-treated GH3 cells but decreased in Ca(2+)-treated 235-1 cells. Ionomycin treatment increased GRP78 mRNA levels in both cell lines. Thus, addition of extracellular Ca2+ appears to affect [Ca2+]i in 235-1 but not GH3 cells, while ionomycin affects [Ca2+]i in both cell lines. These data suggest that changing [Ca2+]i modulates PRL gene transcription. The comparative data suggest that posttranscriptional PRL regulation is Ca(2+)-regulated in GH3 cells, but is constitutive in 235-1 cells.
Mol Endocrinol 1992 Aug
PMID:Effects of calcium and calcium ionophores on prolactin gene expression in GH3 and 235-1 rat pituitary tumor cells. 140 4

The endoplasmic reticulum (ER)-localized chaperone protein, GRP78-BiP, is involved in the folding and oligomerization of secreted and membrane proteins, including the simian virus 5 hemagglutinin-neuraminidase (HN) glycoprotein. To understand this interaction better, we have constructed a series of HN mutants in which specific portions of the extracytoplasmic domain have been deleted. Analysis of these mutant polypeptides expressed in CV-1 cells have indicated that GRP78-BiP binds to selective sequences in HN and that there exists more than a single site of interaction. Mutant polypeptides have been characterized that are competent and incompetent for association with GRP78-BiP. These mutants have been used to show that the induction of GRP78-BiP synthesis due to the presence of nonnative protein molecules in the ER is dependent on GRP78-BiP complex formation with its substrates. These studies have implications for the function of the GRP78-BiP protein and the mechanism by which the gene is regulated.
Mol Biol Cell 1992 Feb
PMID:Analysis in vivo of GRP78-BiP/substrate interactions and their role in induction of the GRP78-BiP gene. 155 Sep 58

SEC63 encodes a protein required for secretory protein translocation into the endoplasmic reticulum (ER) of Saccharomyces cerevisiae (J. A. Rothblatt, R. J. Deshaies, S. L. Sanders, G. Daum, and R. Schekman, J. Cell Biol. 109:2641-2652, 1989). Antibody directed against a recombinant form of the protein detects a 73-kDa polypeptide which, by immunofluorescence microscopy, is localized to the nuclear envelope-ER network. Cell fractionation and protease protection experiments confirm the prediction that Sec63p is an integral membrane protein. A series of SEC63-SUC2 fusion genes was created to assess the topology of Sec63p within the ER membrane. The largest hybrid proteins are unglycosylated, suggesting that the carboxyl terminus of Sec63p faces the cytosol. Invertase fusion to a loop in Sec63p that is flanked by two putative transmembrane domains produces an extensively glycosylated hybrid protein. This loop, which is homologous to the amino terminus of the Escherichia coli heat shock protein, DnaJ, is likely to face the ER lumen. By analogy to the interaction of the DnaJ and Hsp70-like DnaK proteins in E. coli, the DnaJ loop of Sec63p may recruit luminal Hsp70 (BiP/GRP78/Kar2p) to the translocation apparatus. Mutations in two highly conserved positions of the DnaJ loop and short deletions of the carboxyl terminus inactivate Sec63p activity. Sec63p associates with several other proteins, including Sec61p, a 31.5-kDa glycoprotein, and a 23-kDa protein, and together with these proteins may constitute part of the polypeptide translocation apparatus. A nonfunctional DnaJ domain mutant allele does not interfere with the formation of the Sec63p/Sec61p/gp31.5/p23 complex.
Mol Cell Biol 1992 Jul
PMID:Topology and functional domains of Sec63p, an endoplasmic reticulum membrane protein required for secretory protein translocation. 162 Jan 30

The 78-kDa glucose-regulated protein (GRP78) is a major endoplasmic reticulum (ER) protein that can form stable associations with a variety of proteins retained in the ER because of underglycosylation or other conformational changes. In this study, we provide evidence at the transcriptional level that a conformationally abnormal protein, an altered herpes simplex virus type 1 envelope protein that is retained in the ER of a mammalian cell line, transactivates the grp78 promoter. In contrast, the normal viral envelope glycoprotein does not elevate grp78 promoter activity. Using a series of 5' deletions, linker-scanning, and internal deletion mutations spanning a 100-bp region from -179 to -80, we correlate the cis-acting regulatory elements mediating the activation of grp78 by malfolded proteins, glycosylation block, and the calcium ionophore A23187. We show that they all act through the same control elements, suggesting that they share a common signal. We report here that the highly conserved grp element, while important for basal level and induced grp78 expression, is functionally redundant. The single most important element, by linker-scanning analysis, is a 10-bp region that contains a CCAAT motif. It alone is not sufficient for promoter activity, but a 40-bp region (-129 to -90) that contains this motif is essential for mediating basal level and stress inducibility of the grp78 promoter. We show that the transcription factor CTF/NF-I is able to transactivate the grp78 promoter through interaction with this CCAAT motif.
Mol Cell Biol 1991 Nov
PMID:Transactivation of the grp78 promoter by malfolded proteins, glycosylation block, and calcium ionophore is mediated through a proximal region containing a CCAAT motif which interacts with CTF/NF-I. 165 35

Ischemic stress of cells within solid tumors arises from inadequate perfusion of regions of the tumor and results in microenvironments which are hypoxic and deficient in nutrient delivery and waste product removal. Stressed cells within these microenvironments show growth inhibition and synthesize unique sets of proteins referred to as glucose and oxygen regulated proteins (GRPs and ORPs respectively). The commonality of proteins induced by glucose-starvation and hypoxia has not been proven. To this end, ORPs were induced in Chinese hamster ovary cells in the presence of high glucose concentration in the media and ORP 80 isolated from two dimension gels. Eleven tryptic peptides of the 80 kDa ORP were sequenced and found to be identical to GRP 78 sequences. The data demonstrate that GRP 78 and ORP 80 have the same primary amino acid sequence and suggest that glucose-starvation and hypoxia can induce the same cellular responses.
Mol Cell Biochem 1991 May 15
PMID:Oxygen regulated 80 kDa protein and glucose regulated 78kDa protein are identical. 171 95

The 78-kDa glucose-regulated protein (GRP78) is ubiquitously expressed in many cell types. Its promoter contains multiple protein-binding sites and functional elements. In this study we examined a high affinity protein-binding site spanning bp -198 to -180 of the rat grp78 promoter, using nuclear extracts from both B-lymphoid and HeLa cells. This region contains a sequence TGACGTGA which, with the exception of one base, is identical to the cAMP-response element (CRE). Site-directed mutagenesis reveals that this sequence functions as a major basal level regulatory element in hamster fibroblast cells and is also necessary to maintain high promoter activity under stress-induced conditions. By gel mobility shift analysis, we detect two specific protein complexes. The major specific complex I, while immunologically distinct from the 42-kDa CRE-binding protein (CREB), binds most strongly to the grp site, but also exhibits affinity for the CRE consensus sequence. As such, complex I may consist of other members of the CREB/activating transcription factor protein family. The minor specific complex II consists of CREB or a protein antigenically related to it. A nonspecific complex III consists of the Ku autoantigen, an abundant 70- to 80-kDa protein complex in HeLa nuclear extracts. By cotransfection experiments, we demonstrate that in F9 teratocarcinoma cells, the grp78 promoter can be transactivated by the phosphorylated CREB or when the CREB-transfected cells are treated with the calcium ionophore A23187. The differential regulation of the grp78 gene by cAMP in specific cell types and tissues is discussed.
Mol Endocrinol 1991 Dec
PMID:A binding site for the cyclic adenosine 3',5'-monophosphate-response element-binding protein as a regulatory element in the grp78 promoter. 183 91

We cloned a 1.2-kilobase cDNA (C17-16) from a transformed FRTL thyroid cell library. Northern blot analysis revealed that the size of the corresponding mRNA was 2.0 kilobases. C17-16 mRNA was found in all tissues investigated, but interestingly, its expression was 5- to 10-fold higher in the thyroid glands than in other tissues. Addition of TSH to FRTL cells showed a time- and dose-dependent increase in the steady state level of C17-16 mRNA, and the effect was mimicked by (Bu)2cAMP. An in vitro nuclear run-off assay demonstrated that the stimulatory effect was due to an increase in the transcription rate of the C17-16 gene. TSH had no effect on the half-life of the C17-16 mRNA. Transcriptional induction of the C17-16 gene was inhibited when the cells were treated with cycloheximide. Nucleotide sequencing revealed that C17-16 was identical to the cDNA of rat glucose-regulated protein (GRP78), a member of the heat shock protein family. These results suggest that the expression of GRP78 in thyroid cells is regulated by TSH via cAMP, for which cycloheximide-sensitive protein synthesis might be required, and that more GRP78 might be needed to assist in the synthesis and transport of glycoprotein molecules in TSH-stimulated cells.
Mol Endocrinol 1991 Jul
PMID:Thyrotropin stimulates glucose-regulated protein (GRP78) gene expression in rat functional thyroid epithelial cells, FRTL. 194 97

GRP78, a 78-kDa protein localized in the endoplasmic reticulum (ER), has been implicated in protein processing and stress protection. Its promoter contains a 36-bp region which is conserved among GRP genes across species and has the ability to compete for trans-acting factors mediating GRP gene expression. Integration of about 800 tandem copies of this sequence into the genome of a Chinese hamster ovary cell line (DG44) results in transfectants with the following phenotypes: (i) the induction level of GRP78 by the calcium ionophore A23187 and tunicamycin is reduced 4- and 2-fold, respectively, (ii) the induction levels of two other ER luminal protein genes, GRP94 and ERp72, are simultaneously down-regulated, (iii) the growth rate of these cells is half that of transfectants without the amplified sequence, and (iv) cell viability is decreased by 25-fold after A23187 treatment. These results provide new evidence that ERp72 shares common trans-acting regulatory factors with the GRP genes and that a reduction of this set of ER proteins correlates with lower viability after ionophore treatment.
Mol Cell Biol 1991 Jul
PMID:Competitive inhibition of a set of endoplasmic reticulum protein genes (GRP78, GRP94, and ERp72) retards cell growth and lowers viability after ionophore treatment. 204 63


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