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Target Concepts:
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Query: UNIPROT:P51532 (
transcriptional activator
)
6,546
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The passage of MHC class I heavy chains through the exocytic pathway is promoted by association with beta 2 microglobulin (beta 2m). In order to analyze the structural basis of this phenomenon, processing and cell surface expression of HLA class I molecules have been investigated in the beta 2m null human melanoma cell line FO-1 transfected with either the human or mouse beta 2m genes. These natural structural variants of beta 2m display 30% amino acid sequence divergence. In comparison with a human beta 2m transfectant of the FO-1 cell line (designated FO-1H), FO-1 cells transfected with the mouse beta 2m gene (FO-1C) express HLA class I molecules that are processed with grossly altered kinetics and are present on the cell surface at reduced levels. The suboptimal expression of HLA class I heavy chains encoded by FO-1C cells reflects a defect in
heavy chain
stability since cell surface expression of HLA class I antigens was increased following incubation at 30 degrees C. The increased cell surface expression paralleled accelerated processing of HLA class I heavy chains by FO-1C cells. In contrast, no induction in either cell surface expression or processing of HLA class I heavy chains was observed for the beta 2m-negative FO-1 parent cell line, which remained HLA class I antigen null when cultured at 30 degrees C, or the FO-1H human beta 2m transfectant, which expressed equivalent levels of HLA class I antigens on the cell surface at 37 degrees C and 30 degrees C. Further up-regulation of the temperature-sensitive induction of HLA class I antigen expression was accomplished by treatment of the FO-1C transfectant with interferon-gamma; this latter effect appears to be active at a posttranscriptional step for FO-1 cells since IFN-gamma was not as potent a
transcriptional activator
at 30 degrees C as it was at 37 degrees C. These results indicate that HLA class I heavy chains expressed by FO-1C cells are subject to temperature-sensitive and cytokine-inducible stabilization that increases their affinity for the structural variant of beta 2m and promotes exocytosis of the HLA class I heterodimer to the cell surface. Furthermore, beta 2m non-conformed MHC class I heavy chains undergo stabilization that is not associated with enhanced cell surface expression, indicating that the exocytosis of putative "empty" HLA class I antigens is a process dependent upon association with beta 2m.
...
PMID:The role of beta-2 microglobulin in temperature-sensitive and interferon-gamma-induced exocytosis of HLA class I molecules. 141 16
The Ig
heavy chain
locus contains a number of binding sites for the
transcriptional activator
, c-Rel. In this study, we evaluated the capacity of B cells from mice made genetically deficient in the C-terminal, transactivation domain of the c-Rel protein (delta c-Rel) to undergo Ig class switching. Flow-cytometric and digestion circularization PCR analyses revealed that delta c-Rel B cells failed to switch to IgG3 in response to LPS alone, or to IgG1 or IgE in response to LPS + IL-4. This failure to switch to IgG3 or IgG1 was associated with a corresponding loss of germline CH gamma 3 or CH gamma 1 RNA. However, the defective switching to IgE in delta c-Rel B cells was associated with normal levels of germline CH epsilon RNA relative to control B cells. The ability of delta c-Rel B cells to switch to IgG1, in response to LPS + IL-4, could be restored through the action(s) of additional stimuli, and this was associated with induction of normal levels of germline CH gamma 1 RNA relative to controls. In contrast, LPS-activated B cells from delta c-Rel mice underwent normal switching to IgA in the presence of TGF-beta, relative to control B cells. This was associated with equivalent steady state levels of germline CH alpha RNA between the two B cell populations. These data are the first to demonstrate a key and selective role for c-Rel in the regulation of Ig class switching. Furthermore, distinct differences are revealed in the Ig isotype induction profiles of B cells lacking c-Rel activity vs those deficient in p50/nuclear factor-kappa B.
...
PMID:B cells genetically deficient in the c-Rel transactivation domain have selective defects in germline CH transcription and Ig class switching. 931 10
The Ig
heavy chain
enhancer of the channel catfish (Ictalurus punctatus) has an unusual position and structure, being found in the 3' region of the mu gene and containing eight functional octamer motifs of consensus (ATGCAAAT) and variant sequences. The presence of multiple octamer motifs suggests that an Oct2 homologue may play an important role in driving expression of the Ig
heavy chain
locus in a teleost fish. To test this hypothesis, two catfish Oct2 cDNAs (alpha and beta) were cloned by screening a catfish B cell cDNA library. Catfish Oct2 alpha and beta isoforms are derived by alternative RNA splicing; as determined by Southern analysis, Oct2 is a single copy gene. In comparisons with mammalian Oct2, the catfish Oct2 isoforms show high sequence conservation in their N-terminal regions and POU domains, but extensive divergence in their C-terminal regions. Catfish Oct2 a and beta are tissue restricted, bind both consensus and variant octamer motifs, and activate transcription in both catfish and murine cells. In contrast, mouse Oct2 activated transcription in mouse but not catfish cells. Catfish Oct2 beta is a more potent
transcriptional activator
than Oct2 alpha. In transient expression assays, catfish Oct2 beta showed a marked preference for the octamer variant, ATGtAAAT, which occurs twice in the catfish enhancer. Mouse Oct2 also showed increased activity with the variant octamer when tested in mouse B cells. Gel-shift analysis competition assays indicated that catfish Oct2 binds the consensus octamer motif with an apparently higher affinity than it does the variant motif.
...
PMID:Characterization of Oct2 from the channel catfish: functional preference for a variant octamer motif. 955 93
The B cell-specific, sequence-specific duplex DNA-binding protein LR1 is a
transcriptional activator
and may also function in
heavy chain
class switch recombination. LR1 is composed of two polypeptides, a 106-kDa subunit that is nucleolin, and a 45-kDa subunit that we now show to be a specific isoform of hnRNP D. hnRNP D and nucleolin both contain canonical RNA binding domains (RBDs also called RRMs) and Arg-Gly-Gly (RGG) motifs. Although these motifs are not commonly associated with sequence-specific recognition of duplex DNA, nonetheless LR1 binds duplex DNA with high affinity (KD = 1.8 nM) and clear sequence specificity. Two RBD-RGG proteins can therefore combine to produce a sequence-specific duplex DNA-binding protein.
...
PMID:A specific isoform of hnRNP D interacts with DNA in the LR1 heterodimer: canonical RNA binding motifs in a sequence-specific duplex DNA binding protein. 978 34
