UNIPROT:P06126 - FACTA Search

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Query: UNIPROT:P06126 (CD1a)
2,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The CD1 antigens are a family of differentiation antigens found predominantly, but not exclusively, in the human thymus. Although three antigens (CD1a-c) are described by monoclonal antibodies, five genes (CD1A-E) are found in the human genome. The cloning of the mouse CD1 genes (Bradbury, A., Belt, K.T., Nery, T.M., Milstein, C. and Calabi, F., EMBO J. 1988. 7:3081) demonstrated the presence of homologues to human CD1D, but not to any of the other human CD1 genes. In this work we have examined the expression of mouse CD1D mRNA in the thymus and shown that it is predominantly cortical, as is the expression of the CD1 antigens in man. Somewhat surprisingly, we also find that most CD1D mRNA in the mouse thymus is unspliced. Despite this, we have also been able to show, using a polyclonal antiserum directed against a bacterial fusion protein, the existence of the expected protein product.
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PMID:Expression of CD1 in the mouse thymus. 169 34

Human cluster of differentiation (CD1) is a family of cell surface glycoproteins composed of a 43-49-kDa heavy chain non-covalently associated with beta 2-microglobulin. Five human CD1 genes have been detected and cloned. Three genes (CD1A, -B and -C) encode the serologically defined CD1a, -b and -c antigens. Thus two genes remain, CD1D and CD1E, whose protein products have not been characterized so far. This report describes how a beta-galactosidase-CD1D fusion protein was used to raise specific antisera and a monoclonal antibody against the CD1D gene product. The monoclonal antibody defines a cell surface molecule expressed on a cortical thymocyte cell line and is composed of a 49-kDa heavy chain associated with beta 2-microglobulin, which is serologically distinct from CD1a.
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PMID:The identification of the beta 2-microglobulin binding antigen encoded by the human CD1D gene. 170 66

Human CD1 is a family of thymocyte differentiation antigens which consist of heavy chains with mol. wts between 43 and 49 kd binding to beta 2 microglobulin. They are distant relatives of the major histocompatibility complex (MHC) class I and II products. Five human CD1 genes have been described. Three (CD1A, -B and -C) code for the serologically defined CD1a, -b and -c antigens. The protein products of the other two genes, CD1D and CD1E, remain unknown. All CD1 genes are located on chromosome 1 and hence are independent of the MHC locus. In this paper, the tight linkage of the CD1 genes has been established by pulse field gel electrophoresis, cosmid cloning and walking techniques. The 190 kb of DNA linking all five CD1 genes has been spanned by 14 overlapping cosmids. The order of the genes in the CD1 complex is CD1D-CD1A-CD1C-CD1B-CD1E, and, with the exception of CD1B, they are arranged in the same transcriptional orientation. The genes are evenly spaced in the complex except for the distance between CD1D and CD1A, which is two to three times greater than the average.
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PMID:A physical map linking the five CD1 human thymocyte differentiation antigen genes. 258 17

Human CD1 genes are a family of five non-polymorphic genes that, although homologous to both class I and II major histocompatibility complex genes, map to chromosome 1. Only three of the antigens, CD1a, -b, and -c, have been clustered with monoclonal antibodies. They are noncovalently associated with beta 2-microglobulin and may function as nonclassical antigen-presenting molecules. Here we analyze their expression in mouse myeloma transfectants and human thymocytes and find mRNA splicing complexity. This manifests itself as incomplete splicing, alternative splicing, utilization of cryptic splice sites, and the generation of alternative reading frames. In the case of CD1A transfectants, we demonstrate that the major protein product is secreted and show by amino acid sequence analysis that this is derived from an unspliced transcript. A second major CD1a component appears to be retained intracellularly. The production of alternatively spliced transcripts in the thymus is not a feature of all CD1 genes. Although in the case of CD1A only the transcript encoding the cell surface CD1a isoform is found, CD1C and -E produce complex intrathymic splicing patterns. The CD1C transcripts predict the expression of a secreted CD1c isoform in the human thymus, which we detect in CD1C transfectant culture supernatants. CD1 gene expression is thus characterized by considerable splicing complexity, and the difference between the splicing patterns found in different environments suggests that this is tissue specific.
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PMID:Alternative splicing generates secretory isoforms of human CD1. 751 59

The CD1 family of proteins are structurally related to MHC class I proteins, but are only distantly related to the class I proteins or other MHC-linked class I-like proteins. Sequence comparisons indicate that the CD1 proteins have evolved into two subfamilies, those which are similar to human CD1a, b, and c and those which are similar to human CD1d. The CD1A-, B-, and C-like genes were deleted from rodents and the CD1D gene was duplicated. CD1a, b, and c are expressed by thymocytes, dendritic cells, activated monocytes, and B cells (CD1c), a tissue distribution which strongly suggests a role in antigen presentation. In contrast, CD1d and its murine homologues are expressed by many cells outside of the lymphoid and myeloid lineages. The CD1 proteins are in most cases expressed as beta 2mg-associated membrane glycoproteins, but may associate with additional proteins. CD1d is expressed on the surface of intestinal epithelial cells in a nonglycosylvated form without beta 2mg. Whether the CD1 proteins function as antigen-presenting molecules is unresolved, but it is unlikely that they present conventional peptide antigens. Strong evidence indicates that murine CD1 proteins are recognized by a population of NK1.1+, CD4+ or CD4-CD8- (double negative, DN) T cells which express an invariant TCR alpha chain. CD1d is most likely recognized by the homologous T cell population in humans. DN alpha beta T cells which recognize CD1a, b, or c have been isolated, including clones which recognize a lipid antigen from mycobacteria presented by CD1b. A third potential population of CD1 reactive cells are CD8+ T cells in the intestinal epithelium. Taken together, these observations indicate that CD1 proteins interact with several specialized populations of T cells. The precise biological functions mediated through these interactions remain to be determined.
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PMID:Structure and function of the CD1 family of MHC-like cell surface proteins. 884 79

The human CD1a molecule is a transmembrane protein which shares structural similarities with HLA class I molecules. It has restricted tissue distribution in normal individuals, and is a useful diagnostic marker for certain disease states such as Langerhans cell histiocytosis. In order to investigate the function of this molecule, a cDNA fragment encoding the CD1a molecule was cloned into several EUKARYOTIC expression vectors which were then used to establish human epithelial cell lines stably expressing the membrane-bound CD1a molecule. Human keratinocytes (HaCaT) and epithelial cells (HeLa) stably expressing CD1a were established by retroviral-mediated gene transfer and DNA transfection, respectively. Expression and localization of the CD1A molecule were then confirmed by Northern blot analysis and immunofluorescence methods. CD1a expression appears to have profound effects on cellular growth and morphology. Both stably CD1a-expressing HeLa and HaCaT cells showed increased doubling times, and up to 20% of CD1a-expressing cells showed altered cell morphology. Clonogenicity experiments demonstrated a reduction in colony size and plating efficiency was augmented in CD1a-positive cells when compared with vector-transfected/infected controls. Our findings suggest that CD1A expression may act as a negative growth regulator in these cells in vitro. Furthermore, lower temperatures greatly enhanced the expression of CD1a at both the protein and mRNA levels in a time-dependent fashion. Since the physiological skin temperatures lie well below the core temperature, this observation may have important implications in the study of Langerhans cells in vitro.
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PMID:Stable expression of CD1a molecule in human epithelial cell lines shows temperature-dependent expression and affects cell morphology and growth. 920 82

CD1 molecules are specialized in presenting lipidic antigens to T lymphocytes. They are structurally and evolutionary related to MHC molecules and show very limited polymorphism. We have previously described and partially characterized a new human CD1A allele differing from the wild type CD1A by a substitution of Cysteine by Tryptophan at position 52 in the alpha1 domain of the CD1A molecule. The frequency of this allele varies from 10% in individuals of Caucasian origin to 56% in Chinese people. The aim of the present work was to structurally characterize this CD1A allele. To do this we have cloned and sequenced the full-length cDNA encoding the new CD1A allele. The cDNA sequence of this allele encodes a protein differing the wild type in two amino acids at positions 14 (Threonine versus Isoleucine) and 52 (Cysteine versus Tryptophan). The cDNAs encoding both wild type and mutant CD1A were cloned in the expression vector pSRalphaNeo and transfected into C1R and L721.221 cells. Cell surface expression of the protein products in transfected cell lines were analyzed by flow cytometry and immunoprecipitation using CD1a-specific monoclonal antibodies. Our results indicate that both allelic products are efficiently expressed on the cell surface.
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PMID:Structural characterization of two CD1A allelic variants. 1160 Feb 21

CD1 molecules resemble classical MHC molecules in structure, bind self and bacterial glycolipids and present them to T cells. Whether the CD1 antigen-binding groove becomes filled during maturation and traffic to the cell surface is an important and still unsolved biological question. As most cell types synthesize complex glycosphingolipids (GSL), which also stimulate CD1-restricted T cells, it could be possible that these ligands associate with nascent CD1 molecules. Here, we show that treatment of cells with drugs blocking at different levels the de novo and salvage pathways of GSL synthesis does not prevent surface expression of CD1a and CD1b. Furthermore, transfection of CD1A and CD1B genes in a mutant cell line unable to synthesize glucosylceramides and galactosylceramides showed normal surface expression of both CD1 molecules. Lack of GSL did not induce intracellular CD1 accumulation as indicated by confocal microscopy. The same results were obtained by transfecting the Lec series of mutants, which are deficient in sugar addition to glycolipids and glycoproteins. These findings demonstrate that endogenous de novo synthesized GSL are not mandatory for CD1a and CD1b negotiating surface expression.
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PMID:CD1a and CD1b surface expression is independent from de novo synthesized glycosphingolipids. 1259 29

The CD1 family of proteins presents lipid Ags to T cells. Human CD1a, CD1b, and CD1c have been shown in humans to present mycobacterial lipid Ags. Cattle, like humans, are a natural host of several mycobacterial pathogens. In this study, we describe the CD1 family of genes in cattle (Bos taurus) and provide evidence that B. taurus expresses CD1a, CD1e, and multiple CD1b molecules, but no CD1c and CD1d molecules. In mice and humans, CD1d is known to present Ag to NKT cells, a T cell lineage that is characterized by a limited TCR repertoire, capable of rapidly secreting large amounts of IFN-gamma and IL-4. In cattle, two CD1D pseudogenes were found and no intact CD1D genes. Consistent with this, we found complete lack of reactivity to a potent, cross-reactive Ag for NKT cells in mice and humans, alpha-galactosylceramide. Our data suggest the absence of NKT cells in cattle. It remains open whether other cells with the NKT-like phenotype and functions are present in this species. With its functional CD1A and CD1B genes, B. taurus is well equipped to present Ags to CD1-restricted T cells other than NKT cells. Cattle can be used as a model to study group 1 CD1-restricted T cell immunity, including its role in the defense against mycobacterial infections that occur naturally in this species.
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PMID:The bovine CD1 family contains group 1 CD1 proteins, but no functional CD1d. 1658 84

CD1a has a unique expression pattern among Ag-presenting molecules, expressed specifically on cortical thymocytes and APCs. As autoimmune disease, infection, and tumors can all result in alteration of CD1a expression, we are attempting to characterize the transcriptional regulation, and thus shed some light on specific expression, of CD1A. In this study, we have identified a minimal proximal promoter region required for CD1A transcription. Computer searches within this region identified numerous potential binding sites for lymphoid-specific transcription factors, including the ETS transcription factors, C/EBP, GATA, and CREB. Deletion and site-specific mutant analysis revealed a critical role of a potential cAMP response element (CRE) 965 bp upstream of the CD1A translation start site. Two activating transcription factor (ATF)/CREB family members, CREB-1 and ATF-2, are able to bind this site in vitro and in vivo. Notably, activation of ATF/CREB family members decreases CD1A transcription, while decrease in ATF-2 expression results in increased CD1A RNA level. The fact that these factors also bind the CD1A promoter in human monocytes strongly suggests a role for ATF/CREB family members in regulation of CD1A expression.
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PMID:Activating transcription factor/cAMP response element binding protein family member regulated transcription of CD1A. 1708 18

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