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)

During the last decade the CD1 family of cell surface glycoproteins has been implicated in the presentation of nonpeptide antigens in man. Recent findings by our group indicate that CD1 molecules also can be involved in the presentation of certain bacterial proteins. However, CD1a, b, and c (group 1 CD1 molecules) are not present at significant levels on circulating monocytes unless their expression is induced by cytokines such as granulocyte-macrophage colony-stimulating factor (GM-CSF). In this study we investigated the cell surface expression of CD1 molecules following the antigenic stimulation in vivo via immunization of healthy volunteers with tetanus toxoid vaccine and in vitro cell cultures using the same antigen. Both the in vivo and in vitro studies demonstrated clear up-regulation of the surface expression of CD1a, b, and c on monocytes as a result of antigenic stimulation with tetanus toxoid, supporting the idea that CD1 molecules participate in the presentation of this protein antigen in man. In vitro, antigen-triggered expression of these molecules was mediated by GM-CSF, since neutralization of this cytokine with specific antibody totally abrogated CD1a, b, and c expression. In contrast to the group 1 CD1 molecules, CD1d was found to be constitutively expressed on the majority of circulating monocytes and B lymphocytes prior to immunization. There was no effect of antigenic stimulation with tetanus toxoid on the cell surface expression of CD1d, suggesting major differences in regulation of the expression and function of the different CD1 molecules in humans. Altogether our results point to antigen-driven up-regulation of CD1a, b, and c expression on human monocytes that is mediated by GM-CSF and no effect on CD1d expression.
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PMID:Antigen-specific regulation of CD1 expression in humans. 1094 28

Glycolipid-specific, CD1a-, b- and c-dependent cytotoxic T cells have recently been shown to be involved in the host response against tuberculosis. These CD1 molecules 'sample' mycobacterial glycolipids from different intracellular sites in the infected cell. Additionally, upon microbial encounter, CD1d-dependent natural killer T cells promptly produce cytokines and perform regulatory activities. Here, we discuss the intracellular localization of CD1 molecules and mycobacterial lipids and the role of CD1-mediated T-cell responses in mycobacterial infections.
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PMID:CD1 and CD1-restricted T cells in infections with intracellular bacteria. 1120 Dec 61

CD1 cell surface glycoproteins represent a family of non-major histocompatibility complex (MHC) encoded antigen-presenting molecules. All members of the CD1 family appear to mediate the recognition of microbial or endogenous lipid and glycolipid antigens. The recognition of CD1d by a unique subset of natural killer (NK) T cells that leads to rapid production of large amounts of both type 1 and type 2 cytokines can be augmented by some synthetic glycolipids. Because of the proposed role of such CD1d-restricted T cells in immunoregulation, we hypothesized that CD1d molecules participate in mucosal immune responses in patients with gastrointestinal symptoms owing to food hypersensitivity. Patients of that category represent a heterogeneous group in which poorly defined immunological mechanisms are believed to contribute to disease pathogenesis. The expression of CD1 in duodenal biopsy samples from six patients with verified intolerance to cow's milk and six healthy controls was studied by immunoperoxidase staining of cryostat sections using a panel of mouse monoclonal antibodies (MoAbs) specific for CD1a, b, c, and d. Large numbers of CD1d positive cells were found in the lamina propria of all the patients, both during the symptomatic and the asymptomatic periods, whereas healthy controls were virtually devoid of CD1d expression in the duodenum. The localization of CD1d positive cells corresponded to areas where B cells, plasma cells and dendritic cells (DC) were present. A positive correlation was found between the numbers of CD1d(+) and CD19(+) cells in the lamina propria. In contrast to previous reports, no CD1d expression was found on the epithelial cells. Although less numerous than CD1d(+) the CD1c(+) cells were also present in all the patients and in five out of six controls. No staining for CD1a or CD1b was detected in the duodenal biopsy samples from any of the subjects. The exclusive presence of CD1d in the duodenal lamina propria of the patients with cow's milk hypersensitivity might suggest the participation of these molecules in the pathogenesis of allergic reactions to food.
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PMID:Expression of CD1d in the duodenum of patients with cow's milk hypersensitivity. 1111 68

Recent evidence has established that non-MHC-encoded molecules of the CD1 family mediate MHC-independent pathways for antigen presentation and T cell activation. Human group 1 CD1 molecules (CD1a, CD1b, CD1c) are expressed mainly on professional antigen-presenting cells, and mediate presentation of microbial lipid and glycolipid antigens to T cells. These group 1 CD1 molecules differentially sample distinct endocytic compartments that may contain different sets of lipid antigens derived from intracellular microbes, and activate antigen-specific T cells. These T cells lyse infected antigen-presenting cells and secrete Th1 cytokines, such as interferon- gamma, and granulysin, a potent antimicrobial protein, and thus can control microbial infection. Reactivity to CD1a, b, and c molecules in the absence of foreign antigen has also been detected in T cells bearing alphabeta and gammadelta TCRs. These T cells may recognize self-lipid antigens and are considered to be autoreactive. In particular, the main tissue subset of gammadelta T cells (V delta 1(+)subset) show prominent reactivity to CD1c, and produce interferon- gamma and granulysin. These CD1c directly reactive T cells may mediate immunity against microbial infection even before antigen-specific T cells differentiate and expand. Together, human CD1a, b and c molecules elicit T cell-dependent immunity to the universe of foreign and self-lipid antigens in both innate and acquired immunity settings.
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PMID:T lymphocyte recognition of human group 1 CD1 molecules: implications for innate and acquired immunity. 1114 56

Four human CD1 isoforms (CD1a, -b,-c and -d) are now known to be antigen presenting molecules with the unique ability to present lipid antigens to T cells. CD1b and CD1d are found in acidic, late endocytic compartments, whereas CD1a and CD1c molecules accumulate at the plasma membrane and in early endosomes. Consistent with their differences in intracellular localization, most studies show antigen presentation by CD1b/CD1d to be dependent on endosomal acidification while CD1a/CD1c mediated antigen presentation is not. Taken together, recent advances in the analysis of CD1 molecules reinforce the hypothesis that the different CD1 isoforms are specialized to survey the lipid content of distinct intracellular compartments. This may help to explain the duplication and diversification of CD1 genes in humans and other mammalian species.
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PMID:Diversification of CD1 proteins: sampling the lipid content of different cellular compartments. 1114 57

A crucial feature of peptide antigen presentation by major histocompatibility complex (MHC) class I and II molecules is their differential ability to sample cytosolic and extracellular antigens. Intracellular viral infections and bacteria that are taken up in phagosomes, but then escape from the endocytic compartment efficiently, enter the class I pathway via the cytosol. In contrast, phagosome-resident bacteria yield protein antigens that are sampled deep in the endocytic compartment and presented in a vacuolar acidification-dependent pathway mediated by MHC class II molecules. Despite this potential for antigen sampling, microbes have evolved a variety of evasive mechanisms that affect peptide transport in the MHC class I pathway or blockade of endosomal acidification and inhibition of phagosome-lysosome fusion that may compromise the MHC class II pathway of antigen presentation. Thus, besides MHC class I and II, a third lineage of antigen-presenting molecules that bind lipid and glycolipid antigens rather than peptides exists and is mediated by the family of CD1 proteins. CD1 isoforms (CD1a, b, c, and d) differentially sample both recycling endosomes of the early endocytic system and late endosomes and lysosomes to which lipid antigens are differentially delivered. These CD1 pathways include vacuolar acidification-independent pathways for lipid antigen presentation. These features of presenting lipid antigens, independently monitoring various antigen-containing intracellular compartments and avoiding certain evasive techniques employed by microbes, enable CD1 molecules to provide distinct opportunities to function in host defense against the microbial world.
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PMID:Pathways for lipid antigen presentation by CD1 molecules: nowhere for intracellular pathogens to hide. 1120 13

CD1 is an MHC class I-like antigen-presenting molecule consisting of a heavy chain and beta(2)-microglobulin light chain. The in vitro refolding of synthetic MHC class I molecules has always required the presence of ligand. We report here the use of a folding method using an immobilized chaperone fragment, a protein disulphide isomerase, and a peptidyl-prolyl cis-trans isomerase (oxidative refolding chromatography) for the fast and efficient assembly of ligand-free and ligand-associated CD1a and CD1b, starting with material synthesized in Escherichia coli. The results suggest that "empty" MHC class I-like molecules can assemble and remain stable at physiological temperatures in the absence of ligand. The use of oxidative refolding chromatography thus is extended to encompass complex multisubunit proteins and specifically to members of the extensive, functionally diverse and important immunoglobulin supergene family of proteins, including those for which a ligand has yet to be identified.
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PMID:Ligand-independent assembly of recombinant human CD1 by using oxidative refolding chromatography. 1124 10

CD1 proteins are a family of cell surface molecules that present lipid antigens to T cells. We investigated skin dendritic cells and monocyte-derived dendritic cells for expression of CD1 molecules using a panel of 10 different monoclonal antibodies focusing on the recently described CD1d molecule. By immunohistochemical analysis, CD1d expression in normal human skin was restricted to dendritic appearing cells in the papillary dermis mainly located in a perivascular localization. Langerhans cells did not show detectable CD1d expression in situ. Epidermal/dermal cell suspensions analyzed by flow cytometry demonstrated distinct subpopulations of HLA-DR positive dermal dendritic cells expressing CD1a, CD1b, and CD1c. CD1d was expressed on HLA-DRbright dermal antigen-presenting cells in dermal suspensions (16% +/- 3.6%), as well as on highly enriched dermal dendritic cells migrating out of skin explants (60.5% +/- 8.0%). Migrated mature dermal dendritic cells coexpressed CD83 and CD1d. Western blot analysis on microdissected skin sections revealed the presence of a 50-55 kDa CD1d molecule in dermis, suggesting that CD1d is highly glycosylated in skin. Both immature and mature monocyte-derived dendritic cells cultured in autologous plasma expressed CD1d molecules. In contrast, culture in fetal bovine serum downregulated CD1d expression. In conclusion, antigen-presenting cells in skin express different sets of CD1 molecules including CD1d and might play a role in lipid antigen presentation in various skin diseases. Differential expression of CD1 molecules depending on culture conditions might have an impact on clinical applications of dendritic cells for immunotherapy.
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PMID:Cd1d is expressed on dermal dendritic cells and monocyte-derived dendritic cells. 1156 62

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

Five CD1 molecules are expressed in humans and it is unclear whether they have specialized or redundant functions. We found that sulfatide is a promiscuous CD1-binding ligand and have isolated T cell clones that are specific for sulfatide and restricted by distinct CD1 molecules. These clones have been used to compare the capacity of different CD1 to present the same glycolipid, to induce effector functions, and to form persistent immunogenic complexes. CD1a, CD1b, and CD1c molecules similarly load sulfatide on the cell surface without processing, and prime Th1 and Th2 responses. Stimulation by sulfatide-loaded CD1a persists much longer than that by CD1b and CD1c in living cells. Use of recombinant soluble CD1a confirmed the prolonged capacity to stimulate T cells. Moreover, other glycosphingolipids bind to all CD1, which suggests the presence of additional promiscuous ligands. Thus, group I CD1 molecules present an overlapping set of self-glycolipids, even though they are quite divergent from an evolutionary point of view.
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PMID:Presentation of the same glycolipid by different CD1 molecules. 1195 92

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