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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)
Transcription factor
AP-2
regulates transcription of a number of genes involving mammalian development, differentiation and carcinogenesis. Recent studies have shown that interaction partners can modulate the transcriptional activity of
AP-2
over the downstream targets. In this study, we reported the identification of GAS41 as an interaction partner of AP-2beta. We documented the interaction both in vivo by co-immunoprecipitation as well as in vitro through
glutathione S-transferase
(
GST
) pull-down assays. We also showed that the two proteins are co-localized in the nuclei of mammalian cells. We further mapped the interaction domains between the two proteins to the C-termini of both AP-2beta and GAS41, respectively. Furthermore, we have identified three critical residues of GAS41 that are important for the interaction between the two proteins. In addition, by transient co-expression experiments using reporter containing three
AP-2
consensus binding sites in the promoter region, we found that GAS41 stimulates the transcriptional activity of AP-2beta over the reporter. Finally, electrophoretic mobility shift assay (EMSA) suggested that GAS41 enhances the DNA-binding activity of AP-2beta. Our data provide evidence for a novel cellular function of GAS41 as a transcriptional co-activator for AP-2beta.
...
PMID:GAS41 interacts with transcription factor AP-2beta and stimulates AP-2beta-mediated transactivation. 1669 63
The glucose transporter GLUT8 cycles between intracellular vesicles and the plasma membrane. Like the insulin-responsive glucose transporter GLUT4, GLUT8 is primarily located in intracellular compartments under basal conditions. Whereas translocation of GLUT4 to the plasma membrane is stimulated by insulin, the distribution of GLUT8 is not affected by insulin treatment in adipose cells. However, blocking endocytosis by co-expression of a dominant-negative dynamin GTPase (K44A) or mutation of the N-terminal dileucine (LL(12/13)) motif in GLUT8 leads to accumulation of the glucose transporter at the cell surface in a variety of different cell types. Yeast two-hybrid analyses and
GST
pulldown assays reveal that the LL signal constitutes a binding site for the beta2-adaptin subunit of the heterotetrameric
AP-2
adaptor complex, implicating this motif in targeting of GLUT8 to clathrin-coated vesicles. Moreover, yeast two-hybrid assays provide evidence that the binding site for the LL motif maps to the appendage domain of beta2-adaptin. To analyze the biological significance of the LL/beta2 interaction, we utilized RNA interference to specifically knockdown
AP-2
. Our results show that RNAi-mediated targeting of the mu2 subunit leads to cellular depletion of
AP-2
, but not AP-1 adaptor complexes in HeLa cells. As a consequence, GLUT8 accumulates at the plasma membrane at comparable levels to those observed in K44A-transfected cells. Conversely, the intracellular localization of mutant GLUT8-LL/AA is restored by replacing the LL motif in GLUT8 with the transferrin receptor-derived mu2-adaptin binding motif YTRF, indicating that for endocytosis both
AP-2
binding motifs can substitute for each other. Thus, our data demonstrate that recruitment of GLUT8 to the endocytic machinery occurs via direct interaction of the dileucine motif with beta2-adaptin, and that endocytosis might be the main site at which GLUT8 is likely to be regulated.
...
PMID:Endocytosis of the glucose transporter GLUT8 is mediated by interaction of a dileucine motif with the beta2-adaptin subunit of the AP-2 adaptor complex. 1672 38
The clathrin adaptors AP-1 and
AP-2
bind cargo proteins via two types of motifs: tyrosine-based Yxx phi and dileucine-based [DE]XXXL[LI]. Although it is well established that Yxx phi motifs bind to the mu subunits of AP-1 or
AP-2
, dileucine motifs have been reported to bind to either the mu or beta subunits of these adaptors as well as the gamma/sigma1 hemicomplex of AP-1. To clarify this controversy, the various subunits of AP-1 and
AP-2
were expressed individually and in hemicomplex form in insect cells, and they were used in
glutathione S-transferase
pull-down assays to determine their binding properties. We report that the gamma/sigma1 or alpha/sigma2 hemicomplexes bound the dileucine-based motifs of several proteins quite strongly, whereas binding by the beta1/mu1 and beta2/mu2 hemicomplexes, and the individual beta or mu subunits, was extremely weak or undetectable. The gamma/sigma1 and alpha/sigma2 hemicomplexes displayed substantial differences in their preference for particular dileucine-based motifs. Most strikingly, an aspartate at position -4 compromised binding to the gamma/sigma1 hemicomplex, whereas minimally affecting binding to alpha/sigma2. There was an excellent correlation between binding to the alpha/sigma2 hemicomplex and in vivo internalization mediated by the dileucine-based sorting signals. These findings provide new insights into the trafficking mechanisms of D/EXXXL[LI]-mediated sorting signals.
...
PMID:The gamma/sigma1 and alpha/sigma2 hemicomplexes of clathrin adaptors AP-1 and AP-2 harbor the dileucine recognition site. 1736 Sep 67
AP-2
is a transcription factor implicated in mammalian development, cell proliferation, apoptosis, and carcinogenesis. To identify potential AP-2alpha-interacting partners, a yeast two-hybrid screen was performed in human brain cDNA library. One of the identified clones encodes potassium channel tetramerization domain-containing 1 (KCTD1). We demonstrated the novel KCTD1-AP-2alpha interaction in vitro by
GST
pull-down assays and in vivo by co-immunoprecipitation assays and mapped the interaction domains to the N-termini of both proteins. In addition, we observed that the two proteins were completely co-localized in the nuclei of mammalian cells. Transient transfection assays using four promoters containing
AP-2
-binding sites confirmed that KCTD1 significantly repressed AP-2alpha-mediated transactivation through the BTB domain, whereas KCTD1 siRNA strongly relieved KCTD1-mediated repression of AP-2alpha transcriptional activity, and other BTB domain proteins such as PDIP1, KCTD10, and TNFAIP1 did not markedly inhibit the transcriptional activity of AP-2alpha, suggesting that KCTD1 specifically acts as a negative regulator of AP-2alpha. Finally, we found that KCTD1 interacted with three major members of the
AP-2
family and inhibited their transcriptional activities. Taken together, our results indicate the novel function of KCTD1 as the transcriptional repressor for
AP-2
family, especially for AP-2alpha.
...
PMID:The interaction of KCTD1 with transcription factor AP-2alpha inhibits its transactivation. 1911 15
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