Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.5.1.18 (glutathione S-transferase)
 22,582 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calnexin is a 90-kDa integral membrane protein of the endoplasmic reticulum (ER). Calnexin binds Ca2+ and may function as a chaperone in the transition of proteins from the ER to the outer cellular membrane. We have purified human calnexin in association with the human interferon-gamma receptor and cloned calnexin cDNA from placenta. Fragments of calnexin have been prepared as glutathione S-transferase fusion proteins and analyzed for their abilities to bind 45Ca2+ and ruthenium red. A subdomain containing four internal repeats binds Ca2+ with the highest affinity. This sequence is highly conserved when compared to calreticulin (a luminal ER protein), an Onchocerca surface antigen, and yeast and plant calnexin homologues. Consequently, this sequence represents a conserved motif for the high-affinity binding of Ca2+, which is clearly distinct from the "E-F hand" motif. An adjacent subdomain, also highly conserved and containing four internal repeats, fails to bind Ca2+. The carboxyl-terminal, cytosolic domain is highly charged and binds Ca2+ with moderate affinity, presumably by electrostatic interactions. The calnexin amino-terminal domain (residues 1-253) also binds Ca2+, in contrast to the amino-terminal domain of calreticulin, which is relatively less acidic. We have also determined the cDNA sequences of mouse and rat calnexins. Comparison of the known mammalian calnexin sequences reveals very high conservation of sequence identity (93-98%), suggesting that calnexin performs important cellular functions. The gene for human calnexin is located on the distal end of the long arm of human chromosome 5, at 5q35.
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PMID:Human, mouse, and rat calnexin cDNA cloning: identification of potential calcium binding motifs and gene localization to human chromosome 5. 813 57

Comparison of the protein expression patterns of proliferating normal primary human keratinocytes plated in serum-free medium (SFKM), supplemented with epidermal growth factor (EGF) and bovine pituitary extract (BPE), and similar cultures induced to differentiate by the addition of Dulbecco's modified Eagle medium (DMEM), containing 10% fetal calf serum (FCS), revealed several known and unknown polypeptides that are abnormally regulated in the differentiated cells. Upregulated proteins included keratins (keratins 6, 10/11, 14 and 16), members of the S100 protein family psoriasin, MRP8, MRP14 and S100c), actin-binding proteins (gelsolin and tropomyosin 9220), annexins (annexins IV and VIII), hsp28, the fatty acid binding protein 5 (FABP5), the squamous cell carcinoma (SCC) antigen, members of the 14-3-3 family, involucrin, E-cadherin, cystatin A, desmoglein and integrins alpha 2 and beta 1, as well as several proteins of as yet unknown identity. The highest upregulated proteins corresponded to psoriasin (124.0 times), MRP8 (42.4 times), MRP14 (14.9 times), tropomyosin 9220 (11.5 times), involucrin (11.1 times), and FABP5 (9.1 times). FABP5, hsp28, and tropomyosin 9220 were also highly upregulated in quiescent keratinocytes indicating that their increased levels in the differentiated cells may be due to loss of proliferative activity. Highly downregulated proteins included PAI-2, tropomyosins 9213, 9121 and 9122, keratin 5, calnexin, 14-3-3 beta and eta, nucleoside diphosphate kinase A, Rho GDIs, hsp60, hnRNPs H and C2, alpha-enolase, eIF-4D, thioredoxin, annexins III and V, moesin, nucleolar protein B23, GST pi and PCNA/cyclin. Both the high expression of keratin 6 and 16--which are markers for an alternative pathway of keratinocyte differentiation--as well as the extremely high upregulation of some members of the S100 protein family indicate that the cells have differentiated via an abnormal pathway.
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PMID:Identification of proteins that are abnormally regulated in differentiated cultured human keratinocytes. 882 83

Interleukin-3 (IL-3) is a hematopoietic growth factor receptor which stimulates the proliferation of multilineage progenitor cells. It is known that IL-3 stimulates tyrosine phosphorylation while transducing a mitogenic signal. The signal transduction pathways activated by the IL-3 receptor, however, are not fully understood. In this study a protein tyrosine phosphatase has been over-expressed in the IL-3 dependent, murine myeloid progenitor cell line, 32D cl3 in order to test whether altering the levels of tyrosine phosphorylation would change IL-3 stimulated proliferation. These cells were transfected with a metal-inducible expression vector containing a rat cDNA encoding PTP1. A low basal level of rat PTP1 message and protein was detected in cells transfected with the PTP1 vector, and zinc treatment resulted in a three- to fourfold increase in the amount of PTP1 message, protein and catalytic activity. Over-expression of PTP1 resulted in a two- to threefold decrease in IL-3 stimulated proliferation. Cells over-expressing PTP1 also exhibited decreased levels of tyrosine phosphorylation; phosphorylation of the IL-3 receptor beta subunit and the Shc protein were both dramatically decreased. Thus, PTP1 over-expression negatively modulated IL-3 signal transduction. To identify potential substrates of PTP1, 32D cl3 cells were transfected with a catalytically inactive PTP1 mutant, PTP1(C/S). Three tyrosine-phosphorylated proteins of MW 140, 79 and 69 k coprecipitated with PTP1(C/S). We believe that the 140 kDa protein represents the beta subunit of the IL-3 receptor. In addition, a GST-fusion protein containing active PTP1 dephosphorylated the beta-subunit in an in vitro assay. By immunofluorescent microscopy over-expressed PTP1(C/S) co-localized largely with calnexin, an endoplasmic reticulum-associated protein. Immunofluorescent microscopy also indicated that PTP1(C/S) and the beta subunit co-localized at discrete sites at the plasma membrane and around a cytoplasmic organelle where most of the beta subunit was located. These observations suggest PTP1 over-expression may down-regulate the growth response to IL-3 through dephosphorylation of the IL-3 receptor, perhaps in an intracellular compartment, thereby inhibiting propagation of the IL-3 mitogenic signal.
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PMID:Over-expression of protein tyrosine phosphatase 1 (PTP1) alters IL-3-dependent growth and tyrosine phosphorylation. 895 78

Calnexin-t (calmegin) is a male germ cell-specific variant of calnexin, a membrane bound-molecular chaperone in the endoplasmic reticulum (ER). Although it is temporally expressed during spermatogenesis, it has recently been shown to be highly involved in sperm fertility. To investigate the biochemical states of calnexin-t during spermatogenesis, we produced a series of glutathione S-transferase-fusion proteins with several specific coding domains of calnexin-t. Immunostaining and 45Ca2+ overlay assays clearly showed that the internal proline-rich repeat region has Ca2+-binding ability and contains an epitope recognized by monoclonal antibody 1C9. Western blot analysis of protein extracts from the testes of 10-, 18-, 26-, and 60-day-old mice revealed only a single 101-kDa protein during testicular development by 1C9. Anti-C, a cytoplasmic domain-specific antibody generated by immunization with recombinant protein, produced the same results, indicating that the 101-kDa form of calnexin-t is prevalent at all stages of spermatogenesis expressing calnexin-t. In paraffin sections of mouse testis, Anti-C stained spermatocytes and spermatids intensely, whereas 1C9 stained spermatocytes only slightly but spermatids intensely, suggesting that the affinity of 1C9 for its epitope is lower in pachytene spermatocytes than in spermatids. Acid phosphatase treatment of the 101-kDa form generated a 93-kDa band that in turn could be recovered to the 101-kDa form by incubation with HeLa cell S100 fraction, indicating that the 101-kDa form is a phosphorylated type of calnexin-t. The sites of phosphorylation were shown to be restricted to the cytoplasmic domain. Our results suggest that the structure of the ER luminal domain of calnexin-t is likely to differ in middle pachytene versus haploid germ cell phases. In addition, the cytoplasmic domain of calnexin-t was shown to be highly phosphorylated immediately after protein synthesis and constitutively phosphorylated during spermatogenesis.
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PMID:Characterization of domains in mice of calnexin-t, a putative molecular chaperone required in sperm fertility, with use of glutathione S-transferase-fusion proteins. 978 Mar 30

A recombinant baculovirus system was used to express the human taurine transporter in Sf9 cells and characterize its mediated uptake activity. This uptake process exhibited: (i) Na(+) dependence, (ii) larger inhibition of taurine transport by competing beta-amino acids than by alpha- and gamma-amino acids, (iii) apparent Michaelis constant, K(t), for taurine transport of 1.6 +/- 0.2 microM, and (iv) a maximal velocity, V(max), of 262 +/- 18 pmol/mg protein per 15 min. Coexpression of a molecular chaperone, human calnexin, enhanced taurine transporter activity by 43%. During development of taurine transporter expression, exposure to tunicamycin (10 microg/ml) decreased taurine transport activity by 76%. The taurine transporter linked to glutathione S-transferase (GST) was expressed to determine whether this conjugate also elicits taurine transport activity. Even though transport activity was markedly decreased, its Na(+) dependence was still evident. Coexpression of calnexin enhanced expression of this conjugated transporter activity by 54%. Immunoblot analysis revealed that calnexin did not change the amount of GST-taurine transporter conjugate or its molecular mass (i.e., 58.4-68.0 kDa). However, tunicamycin decreased its molecular mass. Taken together, taurine transport activity in a baculovirus expression system has characteristics similar to its wild-type counterpart. Stimulation of transport activity by coexpression with calnexin suggests the importance of transporter folding for optimal transport activity. Glycosylation of the transporter also increases its transport activity. Finally, GST-taurine transporter conjugate usage may aid transporter purification even though its transport activity decreases.
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PMID:Characterization of human taurine transporter expressed in insect cells using a recombinant baculovirus. 1172 75

Understanding the basis for differences in nutrient requirements and for nutrient effects on health and performance requires an appreciation of the links between nutrition and gene expression. We developed and applied molecular probes to characterize diet-associated postabsorptive hepatic gene expression in growing pigs chronically fed protein-restricted diets based on either casein (CAS) or soy protein isolate (SPI). Eighty-eight expressed sequence tags (ESTs) were identified on the basis of diet-related changes in expression, by using an mRNA differential display method. Expression profiling based on transcription analysis by real-time reverse transcriptase-polymerase chain reaction showed that the SPI diet significantly changed the pattern of gene expression as compared with the CAS diet and allowed identification of coregulated genes. The expression of six genes involved in the metabolism of stress response (glutathione S-transferase, peptide methionine sulfoxide reductase, apolipoprotein A-I, organic anion transport polypeptide 2, calnexin, heat shock transcription factor 1) exhibited significant changes in the transcription level and indicated an increased oxidative stress response in pigs fed the SPI diet. Hierarchical clustering of gene expression data of all 33 ESTs analyzed across 14 pigs fed the two different diets resulted in clustering of genes related to the oxidative stress response with genes related to the regulation of gene expression and neuronal signaling.
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PMID:Dietary protein modifies hepatic gene expression associated with oxidative stress responsiveness in growing pigs. 1215 8

Calnexin is a membrane-bound lectin of the endoplasmic reticulum (ER) that binds transiently to newly synthesized glycoproteins. By interacting with oligosaccharides of the form Glc(1)Man(9)GlcNAc(2), calnexin enhances the folding of glycoprotein substrates, retains misfolded variants in the ER, and in some cases participates in their degradation. Calnexin has also been shown to bind polypeptides in vivo that do not possess a glycan of this form and to function in vitro as a molecular chaperone for nonglycosylated proteins. To test the relative importance of the lectin site compared with the polypeptide-binding site, we have generated six calnexin mutants defective in oligosaccharide binding using site-directed mutagenesis. Expressed as glutathione S-transferase fusions, these mutants were still capable of binding ERp57, a thiol oxidoreductase, and preventing the aggregation of a nonglycosylated substrate, citrate synthase. They were, however, unable to bind Glc(1) Man(9)GlcNAc(2) oligosaccharide and were compromised in preventing the aggregation of the monoglucosylated substrate jack bean alpha-mannosidase. Two of these mutants were then engineered into full-length calnexin for heterologous expression in Drosophila cells along with the murine class I histocompatibility molecules K(b) and D(b) as model glycoproteins. In this system, lectin site-defective calnexin was able to replace wild type calnexin in forming a complex with K(b) and D(b) heavy chains and preventing their degradation. Thus, at least for class I molecules, the lectin site of calnexin is dispensable for some of its chaperone functions.
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PMID:Lectin-deficient calnexin is capable of binding class I histocompatibility molecules in vivo and preventing their degradation. 1469 98

Peptide:N-glycanase (PNGase) has been proposed to participate in the proteasome-dependent glycoprotein degradation pathway. The finding that yeast PNGase interacts with the 19S proteasome subunit through the protein Rad23 supports this hypothesis. In this report, we have used immunofluorescence, subcellular fractionation, coimmunoprecipitation, and in vitro GST pull-down techniques for detecting intracellular localization and interactions of PNGase, HR23B, and S4 by using human (h) and mouse (m) homologs. Immunofluorescence studies revealed that hPNGase, hHR23B, and hS4 are present in close proximity to the endoplasmic reticulum (ER) when calnexin was used as an ER marker in HeLa cells. Subcellular fractionation suggests not only cytoplasmic but also ER association of hPNGase in HeLa cells. Immunoprecipitation analysis revealed the interaction of h/mPNGase with the 19S proteasome subunit, hS4, through hHR23B. Using an in vitro GST pull-down assay, we also have shown that recombinant mPNGase requires its N terminus and middle domain for interaction with mHR23B. Finally, using misfolded yeast carboxypeptidase Y and chicken ovalbumin as glycoprotein substrates, we have established that mHR23B acts as a receptor for deglycosylated proteins. Based on this finding, we propose that after deglycosylation of misfolded glycoproteins by PNGase, the aglyco forms of these proteins are recognized by HR23B and targeted for degradation.
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PMID:A complex between peptide:N-glycanase and two proteasome-linked proteins suggests a mechanism for the degradation of misfolded glycoproteins. 1535 61

The degradation of connexin43 (Cx43) has been reported to involve both lysosomal and proteasomal degradation pathways; however, very little is known about the mechanisms regulating these Cx43 degradation pathways. Using yeast two-hybrid, glutathione S-transferase pull-down, and co-immunoprecipitation approaches, we have identified a novel Cx43-interacting protein of approximately 75 kDa, CIP75. Laser confocal microscopy showed that CIP75 is located primarily at the endoplasmic reticulum, as indicated by the calnexin marker, with Cx43 co-localization in this perinuclear region. CIP75 belongs to the UbL (ubiquitin-like)-UBA (ubiquitin-associated) domain-containing protein family with a N-terminal UbL domain and a C-terminal UBA domain. The UBA domain of CIP75 is the main element mediating the interaction with Cx43, whereas the CIP75-interacting region in Cx43 resides in the PY motif and multiphosphorylation sites located between Lys 264 and Asn 302. Interestingly, the UbL domain interacts with the S2/RPN1 and S5a/RPN10 protein subunits of the regulatory 19 S proteasome cap subunit of the 26 S proteasome complex. Overexpression experiments suggested that CIP75 is involved in the turnover of Cx43 as measured by a significant stimulation of Cx43 degradation and reduction in its half-life with the opposite effects on Cx43 degradation observed in small interference RNA knockdown experiments.
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PMID:A novel connexin43-interacting protein, CIP75, which belongs to the UbL-UBA protein family, regulates the turnover of connexin43. 1807 9

Activity-regulated cytoskeleton-associated protein, Arc, is a major regulator of long-term synaptic plasticity and memory formation. Here we reveal a novel interaction partner of Arc, a resident endoplasmic reticulum transmembrane protein, calnexin. We show an interaction between recombinantly-expressed GST-tagged Arc and endogenous calnexin in HEK293, SH-SY5Y neuroblastoma and PC12 cells. The interaction was dependent on the central linker region of the Arc protein that is also required for endocytosis of AMPA-type glutamate receptors. High-resolution proximity-ligation assays (PLAs) demonstrate molecular proximity of endogenous Arc with the cytosolic C-terminus, but not the lumenal N-terminus of calnexin. In hippocampal neuronal cultures treated with brain-derived neurotrophic factor (BDNF), Arc interacted with calnexin in the perinuclear cytoplasm and dendritic shaft. Arc also interacted with C-terminal calnexin in the adult rat dentate gyrus (DG). After induction of long-term potentiation (LTP) in the perforant path projection to the DG of adult anesthetized rats, enhanced interaction between Arc and calnexin was obtained in the dentate granule cell layer (GCL). Although Arc and calnexin are both implicated in the regulation of receptor endocytosis, no modulation of endocytosis was detected in transferrin uptake assays. Previous work showed that Arc interacts with multiple protein partners to regulate synaptic transmission and nuclear signaling. The identification of calnexin as a binding partner further supports the role of Arc as a hub protein and extends the range of Arc function to the endoplasmic reticulum, though the function of the Arc/calnexin interaction remains to be defined.
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PMID:Arc Interacts with the Integral Endoplasmic Reticulum Protein, Calnexin. 2897 92


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