EC:2.5.1.18 - FACTA Search

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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)

In adipocytes, insulin stimulates the translocation of the glucose transporter, GLUT4, from an intracellular storage compartment to the cell surface. Substantial evidence exists to suggest that in the basal state GLUT4 resides in discrete storage vesicles. A direct interaction of GLUT4 storage vesicles with the plasma membrane has been implicated because the v-SNARE, vesicle-associated membrane protein-2 (VAMP2), appears to be a specific component of these vesicles. In the present study we sought to identify the cognate target SNAREs for VAMP2 in mouse 3T3-L1 adipocytes. Membrane fractions were isolated from adipocytes and probed by far Western blotting with the cytosolic portion of VAMP2 fused to glutathione S-transferase. Two plasma membrane-enriched proteins, p25 and p35, were specifically labeled with this probe. By using a combination of immunoblotting, detergent extraction, and anion exchange chromatography, we identified p35 as Syntaxin-4 and p25 as the recently identified murine SNAP-25 homologue, Syndet (mSNAP-23). By using surface plasmon resonance we show that VAMP2, Syntaxin-4, and Syndet form a ternary SDS-resistant SNARE complex. Microinjection of anti-Syndet antibodies into 3T3-L1 adipocytes, or incubation of permeabilized adipocytes with a synthetic peptide comprising the C-terminal 24 amino acids of Syndet, inhibited insulin-stimulated GLUT4 translocation to the cell surface by approximately 40%. GLUT1 trafficking remained unaffected by the presence of the peptide. Our data suggest that Syntaxin-4 and Syndet are important cell-surface target SNAREs within adipocytes that regulate docking and fusion of GLUT-4-containing vesicles with the plasma membrane in response to insulin.
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PMID:Syndet, an adipocyte target SNARE involved in the insulin-induced translocation of GLUT4 to the cell surface. 966 52

Sss1p, a 8.9-kDa membrane protein, is an essential component of the protein translocation complex involved in the transport of secretory proteins across the Saccharomyces cerevisiae endoplasmic reticulum membrane. In order to determine the high resolution structure of Sss1p by NMR, we have undertaken its overexpression and purification. We first inserted the yeast SSS1 gene into the pGEX-2T plasmid expression vector. Sss1p was expressed as fusions with Schistosoma japonica glutathione S-transferase (GST-Sss1p) in MC1061 Escherichia coli cells. Maximum yield of GST-Sss1p was obtained from cells harvested 2 h after induction at 37 degreesC in Luria broth medium. GST-Sss1p was found associated predominantly with the membrane pool and was readily extracted with Triton X-100. Detergent-solubilized GST-Sss1p was isolated by adsorption on glutathione-agarose beads. Sss1p was released from its GST carrier by cleavage with thrombin and its recovery was maximized by addition of dodecyl maltoside. Desorbed Sss1p was loaded on a high-performance liquid chromatography hydroxyapatite column equilibrated in phosphate buffer supplemented with dodecyl maltoside and the fractions containing Sss1p were subsequently purified to homogeneity by reverse-phase chromatography on a C4 column. The entire purification protocol can be completed in 5-6 h and yields about 0.4 mg of Sss1p per gram of transformed cells. CD and preliminary 1H NMR experiments show that purified Sss1p solubilized in SDS micelles is very stable and adopts a helical secondary structure.
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PMID:Expression, purification, and characterization of Sss1p, an essential component of the yeast Sec61p protein translocation complex. 969 68

All basolateral sorting signals described to date reside in the cytoplasmic domain of proteins, whereas apical targeting motifs have been found to be lumenal. In this report, we demonstrate that wild-type rhodopsin is targeted to the apical plasma membrane via the TGN upon expression in polarized epithelial MDCK cells. Truncated rhodopsin with a deletion of 32 COOH-terminal residues shows a nonpolar steady-state distribution. Addition of the COOH-terminal 39 residues of rhodopsin redirects the basolateral membrane protein CD7 to the apical membrane. Fusion of rhodopsin's cytoplasmic tail to a cytosolic protein glutathione S-transferase (GST) also targets this fusion protein (GST-Rho39Tr) to the apical membrane. The targeting of GST-Rho39Tr requires both the terminal 39 amino acids and the palmitoylation membrane anchor signal provided by the rhodopsin sequence. The apical transport of GST-Rho39Tr can be reversibly blocked at the Golgi complex by low temperature and can be altered by brefeldin A treatment. This indicates that the membrane-associated GST-Rho39Tr protein may be sorted along a yet unidentified pathway that is similar to the secretory pathway in polarized MDCK cells. We conclude that the COOH-terminal tail of rhodopsin contains a novel cytoplasmic apical sorting determinant. This finding further indicates that cytoplasmic sorting machinery may exist in MDCK cells for some apically targeted proteins, analogous to that described for basolaterally targeted proteins.
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PMID:The cytoplasmic tail of rhodopsin acts as a novel apical sorting signal in polarized MDCK cells. 973 85

Shigella flexneri is a gram-negative bacterium that causes diarrhea and dysentery by invasion and spread through the colonic epithelium. Bacteria spread by assembling actin and other cytoskeletal proteins of the host into "actin tails" at the bacterial pole; actin tail assembly provides the force required to move bacteria through the cell cytoplasm and into adjacent cells. The 120-kDa S. flexneri outer membrane protein IcsA is essential for actin assembly. IcsA is anchored in the outer membrane by a carboxy-terminal domain (the beta domain), such that the amino-terminal 706 amino acid residues (the alpha domain) are exposed on the exterior of the bacillus. The alpha domain is therefore likely to contain the domains that are important to interactions with host factors. We identify and characterize a domain of IcsA within the alpha domain that bears significant sequence similarity to two repeated domains of rickettsial OmpA, which has been implicated in rickettsial actin tail formation. Strains of S. flexneri and Escherichia coli that carry derivatives of IcsA containing deletions within this domain display loss of actin recruitment and increased accessibility to IcsA-specific antibody on the surface of intracytoplasmic bacteria. However, site-directed mutagenesis of charged residues within this domain results in actin assembly that is indistinguishable from that of the wild type, and in vitro competition of a polypeptide of this domain fused to glutathione S-transferase did not alter the motility of the wild-type construct. Taken together, our data suggest that the rickettsial homology domain of IcsA is required for the proper conformation of IcsA and that its disruption leads to loss of interactions of other IcsA domains within the amino terminus with host cytoskeletal proteins.
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PMID:Functional analysis of a rickettsial OmpA homology domain of Shigella flexneri icsA. 992 50

The Na+/H+ exchanger is a pH regulatory protein that is responsible for removal of excess intracellular protons in exchange for extracellular Na+. It is a plasma membrane protein with a large cytoplasmic carboxyl terminal domain that regulates activity of the membrane domain. We overexpressed and purified the cytoplasmic domain that was produced in Escherichia coli. This region (516-815 amino acids) was under control of the tac promoter from the plasmid pGEX-KG and was fused with glutathione S-transferase. Upon induction, the fusion protein was principally found in inclusion bodies. Purified inclusion bodies were solubilized and fractionated using preparative SDS polyacrylamide gel electrophoresis. To obtain free Na+/H+ exchanger protein the fusion protein was dialyzed against cleavage buffer and cleaved at the thrombin cleavage site between glutathione S-transferase and the Na+/H+ exchanger domain. Free Na+/H+ exchanger protein was obtained by rerunning the sample on preparative gel electrophoresis. The final yield of the purified protein was 2.15 mg protein/L of cell culture. After exhaustive dialysis the secondary structure of the purified protein was assessed using circular dichroism spectroscopy. The results indicated that the protein was 35% alpha-helix, 17% beta-turn, and 48% random coil. They suggest that the cytoplasmic domain is structured and some regions may be compact in nature.
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PMID:Expression, purification, and characterization of the carboxyl-terminal region of the Na+/H+ exchanger. 1035 18

During a large-scale in vitro translation analysis of a human full-length cDNA bank, we found many clones producing in vitro translation products showing ladder bands on a fluorogram with the equidistance of about 9 kDa at the position larger than the molecular mass expected from the open reading frame. We have analyzed a clone showing a typical pattern of the ladder bands. This clone encoded a 188-amino acid polypeptide containing a putative transmembrane domain. A green fluorescent protein-tagged polypeptide expressed in COS7 cells was localized in the endoplasmic reticulum and the Golgi apparatus. The ladder bands were observed in a rabbit reticulocyte lysate system, but not in a wheat germ extract system. Addition of the glutathione S-transferase-fused ubiquitin into the lysate caused upward shifts of the ladder bands. Addition of microsomal membranes prevented the formation of the ladder bands. Time course experiments demonstrated that the in vitro translation products increased in the presence of microsomal membranes, but were gradually degraded in their absence. These results suggest that the ladder formation resulted from the ubiquitination of misfolded polypeptide that failed to translocate to its proper position, and that an exclusion mechanism of misfolded membrane protein works in the rabbit reticulocyte lysate system.
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PMID:Multi-ubiquitination of a nascent membrane protein produced in a rabbit reticulocyte lysate. 1039 20

A mimotope-guided strategy for engineering antibodies directed against orphan targets or antigens that are difficult to purify was developed and used to humanize the murine MRK-16 monoclonal antibody (mAb). MRK-16 recognizes a conformational epitope of a 170-kDa membrane protein, termed P-glycoprotein (P-gp). Elevated expression of P-gp on tumor cells is associated with resistance to cytotoxic drugs, a major obstacle in chemotherapy. Murine MRK-16 was used to enrich and screen a phage-displayed peptide library to identify reactive mimotopes. One peptide, termed ALR1, was enriched to a greater extent than others and subsequently was expressed as a fusion protein with glutathione S-transferase. ALR1 fusion protein bound MRK-16 specifically and inhibited binding of MRK-16 to cells expressing elevated levels of P-gp. To humanize MRK-16, the murine complementarity determining regions were grafted onto homologous human heavy and light chain variable region frameworks. Framework residues that differed between the murine MRK-16 and the homologous human templates were analyzed and subsequently, five framework positions potentially important for maintaining the specificity and affinity of MRK-16 were identified. A combinatorial library consisting of 32 variants encoding all possible combinations of murine and human residues at the five differing framework positions was expressed in a phage system. In the absence of purified P-gp, ALR1 fusion protein was used as surrogate antigen to screen the antibody library to identify the framework combination that most preserved the binding activity of the mAb. On the basis of the initial screening against the mimotope four antibody variants were selected for further characterization. The binding affinity of these variants for the ALR1 fusion protein correlated with their binding to cells expressing elevated levels of P-gp. Thus, peptide mimotopes which can be identified for virtually any antibody including those that recognize conformational or carbohydrate epitopes, can serve as antigen templates for antibody engineering.
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PMID:Use of a peptide mimotope to guide the humanization of MRK-16, an anti-P-glycoprotein monoclonal antibody. 1048 67

Enteropathogenic Escherichia coli (EPEC) secretes several Esps (E. coli-secreted proteins) that are required for full virulence. Insertion of the bacterial protein Tir into the host epithelial cell membrane is facilitated by a type III secretion apparatus, and at least EspA and EspB are required for Tir translocation. An EPEC outer membrane protein, intimin, interacts with Tir on the host membrane to establish intimate attachment and formation of a pedestal-like structure. In this study, we identified a Tir chaperone, CesT, whose gene is located between tir and eae (which encodes intimin). A mutation in cesT abolished Tir secretion into culture supernatants and significantly decreased the amount of Tir in the bacterial cytoplasm. In contrast, this mutation did not affect the secretion of the Esp proteins. The level of tir mRNA was not affected by the cesT mutation, indicating that CesT acts at the post-transcriptional level. The cesT mutant could not induce host cytoskeletal rearrangements, and displayed the same phenotype as the tir mutant. Gel overlay and GST pulldown assays demonstrated that CesT specifically interacts with Tir, but not with other Esp proteins. Furthermore, by using a series of Tir deletion derivatives, we determined that the CesT binding domain is located within the first 100 amino-terminal residues of Tir, and that the pool of Tir in the bacterial cytoplasm was greatly reduced when this domain was disrupted. Interestingly, this domain was not sufficient for Tir secretion, and at least the first 200 residues of Tir were required for efficient secretion. Gel filtration studies showed that Tir-CesT forms a large multimeric complex. Collectively, these results indicate that CesT is a Tir chaperone that may act as an anti-degradation factor by specifically binding to its amino-terminus, forming a multimeric stabilized complex.
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PMID:Enteropathogenic Escherichia coli translocated intimin receptor, Tir, requires a specific chaperone for stable secretion. 1051 Feb 31

Insulin and guanosine-5'-O-(3-thiotriphosphate) (GTPgammaS) both stimulate glucose transport and translocation of the insulin-responsive glucose transporter 4 (GLUT4) to the plasma membrane in adipocytes. Previous studies suggest that these effects may be mediated by different mechanisms. In this study we have tested the hypothesis that these agonists recruit GLUT4 by distinct trafficking mechanisms, possibly involving mobilization of distinct intracellular compartments. We show that ablation of the endosomal system using transferrin-HRP causes a modest inhibition ( approximately 30%) of insulin-stimulated GLUT4 translocation. In contrast, the GTPgammaS response was significantly attenuated ( approximately 85%) under the same conditions. Introduction of a GST fusion protein encompassing the cytosolic tail of the v-SNARE cellubrevin inhibited GTPgammaS-stimulated GLUT4 translocation by approximately 40% but had no effect on the insulin response. Conversely, a fusion protein encompassing the cytosolic tail of vesicle-associated membrane protein-2 had no significant effect on GTPgammaS-stimulated GLUT4 translocation but inhibited the insulin response by approximately 40%. GTPgammaS- and insulin-stimulated GLUT1 translocation were both partially inhibited by GST-cellubrevin ( approximately 50%) but not by GST-vesicle-associated membrane protein-2. Incubation of streptolysin O-permeabilized 3T3-L1 adipocytes with GTPgammaS caused a marked accumulation of Rab4 and Rab5 at the cell surface, whereas other Rab proteins (Rab7 and Rab11) were unaffected. These data are consistent with the localization of GLUT4 to two distinct intracellular compartments from which it can move to the cell surface independently using distinct sets of trafficking molecules.
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PMID:Differential regulation of secretory compartments containing the insulin-responsive glucose transporter 4 in 3T3-L1 adipocytes. 1056 64

The outer membrane protein of Oma87 from Pasteurella multocida A:1 has significant similarity to the D15 protective antigen of Haemophilus influenzae (Ruffolo and Adler, 1996). Four fragments of Oma87 from a P. multocida serotype D strain were cloned into a pGEX expression vector and transformed into E. coli JM105. Western blot analysis revealed that convalescent chicken sera reacted with only GST-F1 fusion protein which contained amino acids 18 through to 130 of Oma87 fused to the GST protein. Vaccination with the GST-F1 protein failed to protect chickens against challenge with a virulent P. multocida serotype A.
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PMID:Overexpression and immunogenicity of the Oma87 outer membrane protein of Pasteurella multocida. 1069 6

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