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1.
Clin Exp Immunol ; 155(3): 523-33, 2009 Mar.
Article in English | MEDLINE | ID: mdl-19220838

ABSTRACT

Human and murine dendritic cell (DC) subsets are often defined by phenotypic features that predict their functional characteristics. In humans and mice, DC have been shown to have the ability to polarize naive CD4 T cells to a T helper type 1 (Th1) or Th2 phenotype. However, human myeloid DC generated from monocytes (monocyte-derived DC) have often been regarded as a homogeneous population, both phenotypically and functionally. Monocytes give rise to subpopulations of DC in vitro that can be separated on the basis of their expression of CD1a, a well-described DC subset marker. Importantly, we show that the CD1a(+) DC subset produces significant quantities of interleukin-12p70 (IL-12p70) upon stimulation and, similar to the murine CD8 alpha(+) DC subset, can polarize naive CD4(+) T cells to a Th1 phenotype. In contrast, CD1a(-) DC, similar to murine CD8 alpha(-) DC, do not produce significant amounts of IL-12p70 upon stimulation or polarize T cells to a Th1 phenotype. Like monocyte-derived DC, CD1a(+) and CD1a(-) DC subsets obtained from CD34(+) haematopoietic progenitors under distinct culture conditions were found to have these same features, suggesting that CD1a expression is a marker for myeloid DC that are a major source of IL-12 and Th1 CD4(+) T cell polarization in man.


Subject(s)
Antigens, CD1/analysis , Dendritic Cells/immunology , Interleukin-12/immunology , Lymphocyte Subsets/immunology , Animals , Biomarkers/analysis , CD4-Positive T-Lymphocytes/immunology , CD40 Ligand/pharmacology , Cells, Cultured , Flow Cytometry , Humans , Immunization , Immunophenotyping , Interferon-gamma/analysis , Interleukin-10/analysis , Interleukin-12/analysis , Interleukin-4/analysis , Interleukin-6/analysis , Lipopolysaccharides/pharmacology , Mice
2.
Exp Clin Endocrinol Diabetes ; 116 Suppl 1: S46-9, 2008 Sep.
Article in English | MEDLINE | ID: mdl-18777454

ABSTRACT

Mice, deficient for vascular endothelial growth factor VEGF-A in pancreatic islets, have reduced insulin gene expression levels and an impaired glucose tolerance. Here, we investigated whether VEGF-A was required for physiological glucose-stimulated insulin secretion and insulin content. We performed in situ pancreas perfusions and islet perifusions on mice lacking VEGF-A in the pancreatic epithelium in order to study their ability to secrete insulin in response to glucose. We identified insulin secretion defects in the pancreata of VEGF-A deficient mice, including a delayed and blunted response to glucose. Islet perifusion experiments revealed a missing first phase and weaker second phase of insulin secretion, in two of three VEGF-A deficient mice. On average, insulin content in VEGF-A deficient islets was significantly reduced when compared with control islets. We conclude that VEGF-A is required in pancreatic islets for normal glucose-stimulated insulin secretion and physiological insulin content. Thus, VEGF-A is a key factor for pancreatic islet function.


Subject(s)
Insulin/metabolism , Islets of Langerhans/metabolism , Vascular Endothelial Growth Factor A/genetics , Animals , Arginine/pharmacology , Cells, Cultured , Down-Regulation/drug effects , Glucose/pharmacology , Insulin Secretion , Islets of Langerhans/drug effects , Islets of Langerhans/physiology , Mice , Mice, Knockout , Time Factors , Vascular Endothelial Growth Factor A/metabolism
3.
Curr Top Microbiol Immunol ; 314: 143-64, 2007.
Article in English | MEDLINE | ID: mdl-17593660

ABSTRACT

Specific T cell responses to a variety of self and microbial lipids depend on proper assembly and intracellular trafficking of CD 1 molecules that intersect with and load processed lipid antigens. These pathways involve unique membrane trafficking and chaperones that are distinct from those utilized for major histocompatibility complex (MHC)-mediated presentation of peptide antigens, and thus define unique lipid antigen presentation pathways. Furthermore, recent studies have identified components of lipid metabolism that participate in lipid delivery, uptake, processing and loading onto CD1 molecules. Defects in these pathways result in impaired T cell development and function, underscoring their critical role in the lipid-specific T cell immune responses.


Subject(s)
Antigen Presentation , Antigens, CD1/metabolism , Antigens/metabolism , Glycosphingolipids/metabolism , Animals , Antigen-Presenting Cells/metabolism , Antigens/immunology , Cell Membrane/metabolism , Endoplasmic Reticulum/metabolism , Endosomes/metabolism , Glycosphingolipids/immunology , Humans , Mice
4.
Ann N Y Acad Sci ; 1009: 332-40, 2003 Dec.
Article in English | MEDLINE | ID: mdl-15028607

ABSTRACT

The effect of the imidazoline compound LY374284 has been studied in pancreatic islets of db/db mice, a progressive model of diabetes. In perifusion experiments, pancreatic islets of db/db mice showed a progressive deterioration of glucose-induced insulin release with increasing age, whereby the first phase of insulin secretion was almost completely abolished and the second phase was substantially decreased by 15 weeks of age. LY374284 restored the first phase of glucose-induced insulin secretion in islets of 16-week-old db/db mice to 70% of that observed in islets isolated from age-matched nondiabetic db/1 mice. LY374284 did not affect insulin secretion at a low glucose concentration (3.3 mmol/L). A similar restoration of first phase insulin secretion was observed after application of glucagon-like peptide-1, whereas a sulfonylurea agent, tolbutamide, was inactive. LY374284 did not affect cytosolic Ca(2+) concentration or cellular ATP content. Furthermore, LY374284 strongly enhanced insulin secretion in islets of db/db and db/1 mice maximally depolarized by 30 mmol/L K(+) and 250 micromol/L diazoxide. The present data suggest that the imidazoline compound LY374284 restores biphasic insulin secretion in islets of diabetic db/db mice by amplifying glucose-induced insulin secretion at a site distal to Ca(2+)-influx.


Subject(s)
Diabetes Mellitus/metabolism , Imidazoles/pharmacology , Insulin/metabolism , Islets of Langerhans/metabolism , Adenosine Triphosphate/metabolism , Animals , Calcium/metabolism , Culture Techniques , Disease Models, Animal , Glucose/metabolism , Humans , Imidazoles/chemistry , Insulin Secretion , Islets of Langerhans/drug effects , Male , Membrane Potentials/physiology , Mice , Mice, Inbred C57BL
5.
Infect Immun ; 69(12): 7461-70, 2001 Dec.
Article in English | MEDLINE | ID: mdl-11705921

ABSTRACT

Nonpeptide antigens (including glycolipids of microbial origin) can be presented to T cells by CD1 molecules expressed on monocyte-derived dendritic cells. These HLA unrestricted responses appear to play a role in host immunity against Mycobacterium tuberculosis and other pathogenic bacteria. It is known that vaccination with Mycobacterium bovis bacillus Calmette-Guérin (BCG) has limited efficacy in many clinical settings, although the reasons for its inadequacy remain unclear. Here we have investigated the influence of BCG on the induction of CD1b on human monocytes by granulocyte-macrophage colony-stimulating factor (GM-CSF), which is believed to be the principal inducer of this antigen-presenting molecule. Although BCG alone led to a slight induction of CD1b expression, this agent reduced markedly the ability of GM-CSF to induce high levels of CD1b that were typically observed in uninfected cells. Inhibition of CD1b expression in BCG-infected monocytes was apparent at both the mRNA transcript and CD1b protein levels. Down-regulation of CD1b expression by BCG was mediated, at least in part, by one or more soluble factors and could not be reversed with high concentrations of GM-CSF or a variety of other cytokines. The present results suggest that BCG could diminish the efficiency of CD1-restricted T-cell responses against nonpeptide mycobacterial antigens by reducing CD1 expression on antigen-presenting cells. These findings have potential implications for understanding the nature of the immune response elicited by BCG in humans and suggest potential strategies that could be important for the development of better vaccines for the prevention of tuberculosis.


Subject(s)
Antigens, CD1/biosynthesis , Leukocytes, Mononuclear/immunology , Mycobacterium bovis/immunology , Antigen Presentation , Antigens, CD1/genetics , Cell Adhesion , Down-Regulation , Gene Expression Regulation , Glycoproteins/biosynthesis , Glycoproteins/genetics , Granulocyte-Macrophage Colony-Stimulating Factor/pharmacology , HLA-DR Antigens/biosynthesis , Histocompatibility Antigens Class I/biosynthesis , Humans , Interleukin-4/pharmacology , RNA, Messenger/analysis
6.
Curr Opin Immunol ; 13(4): 471-8, 2001 Aug.
Article in English | MEDLINE | ID: mdl-11498304

ABSTRACT

Recent results strengthen evidence that CD1-restricted T cells play important roles in host defense against microbial infections. Human subjects recently infected with Mycobacterium tuberculosis showed elevated responses to CD1c-mediated presentation of a microbial lipid antigen, compared with control donors. Activation of CD1d-restricted NKT cells with a synthetic glycolipid antigen results in improved immune responses to several infectious pathogens.


Subject(s)
Antigens, CD1/metabolism , Infections/immunology , T-Lymphocyte Subsets/immunology , Animals , Antigen Presentation , Humans , Killer Cells, Natural/immunology , Lipids/immunology , Models, Biological , Receptors, Antigen, T-Cell/metabolism , Receptors, Antigen, T-Cell, gamma-delta/metabolism , Tuberculosis, Pulmonary/immunology
8.
Eur J Immunol ; 30(11): 3199-206, 2000 Nov.
Article in English | MEDLINE | ID: mdl-11093135

ABSTRACT

Gangliosides form a component of the glycosphingolipid-rich membrane microdomains recently shown to play an important role in receptor signal transduction. Specific gangliosides also serve as receptors for binding and internalization of bacterial toxins. In the course of characterizing the basis of the native tetanus toxin (TTx) reactivity of a human gamma delta T cell clone, we observed that transfer of the TCR was required to impart TTx reactivity on a TCR-negative recipient T cell. However, the reconstitution of toxin reactivity could be achieved regardless of the antigen specificity of the TCR chains. Further analysis showed that the T cell recognition of native TTx was dependent on the presence of its ganglioside receptor, GT1b, on the T cell surface. Incorporation of exogenous GT1b into plasma membrane conferred TTx reactivity on otherwise non-reactive T cells provided these cells expressed the TCR. Finally, reconstitution of TCR-negative Jurkat T cells with a CD8-CD3zeta chain chimera demonstrated that the cytoplasmic region of the CD3zeta chain was sufficient to couple ganglioside-mediated TTx binding to T cell activation. These data reveal a novel mode of TCR-dependent reactivity to a bacterial toxin that could mobilize a large subset of T cells, thus representing a form of innate immunity. Given the possibility that endogenous ligands may bind to cell surface gangliosides, regulation of their levels and topology on the cell surface may constitute an immunoregulatory mechanism.


Subject(s)
Gangliosides/immunology , Lymphocyte Activation/immunology , Receptors, Antigen, T-Cell, gamma-delta/immunology , Signal Transduction/immunology , T-Lymphocytes/immunology , Cell Line, Transformed , Humans
9.
J Exp Med ; 192(7): 965-76, 2000 Oct 02.
Article in English | MEDLINE | ID: mdl-11015438

ABSTRACT

T cells recognize microbial glycolipids presented by CD1 proteins, but there is no information regarding the generation of natural glycolipid antigens within infected tissues. Therefore, we determined the molecular basis of CD1b-restricted T cell recognition of mycobacterial glycosylated mycolates, including those produced during tissue infection in vivo. Transfection of the T cell receptor (TCR) alpha and beta chains from a glucose monomycolate (GMM)-specific T cell line reconstituted GMM recognition in TCR-deficient T lymphoblastoma cells. This TCR-mediated response was highly specific for natural mycobacterial glucose-6-O-(2R, 3R) monomycolate, including the precise structure of the glucose moiety, the stereochemistry of the mycolate lipid, and the linkage between the carbohydrate and the lipid. Mycobacterial production of antigenic GMM absolutely required a nonmycobacterial source of glucose that could be supplied by adding glucose to media at concentrations found in mammalian tissues or by infecting tissue in vivo. These results indicate that mycobacteria synthesized antigenic GMM by coupling mycobacterial mycolates to host-derived glucose. Specific T cell recognition of an epitope formed by interaction of host and pathogen biosynthetic pathways provides a mechanism for immune response to those pathogenic mycobacteria that have productively infected tissues, as distinguished from ubiquitous, but innocuous, environmental mycobacteria.


Subject(s)
Antigens, Bacterial/immunology , Antigens, CD1/immunology , Carbohydrates/immunology , Glycolipids/immunology , Mycobacterium/immunology , T-Lymphocytes/immunology , Animals , Armadillos , Carbohydrate Conformation , Carbohydrates/chemistry , Humans , Receptors, Antigen, T-Cell, alpha-beta/immunology , Stereoisomerism , Structure-Activity Relationship , Tumor Cells, Cultured
10.
J Immunol ; 165(8): 4494-504, 2000 Oct 15.
Article in English | MEDLINE | ID: mdl-11035089

ABSTRACT

Ag-specific T cell recognition is mediated through direct interaction of clonotypic TCRs with complexes formed between Ag-presenting molecules and their bound ligands. Although characterized in substantial detail for class I and class II MHC encoded molecules, the molecular interactions responsible for TCR recognition of the CD1 lipid and glycolipid Ag-presenting molecules are not yet well understood. Using a panel of epitope-specific Abs and site-specific mutants of the CD1b molecule, we showed that TCR interactions occur on the membrane distal aspects of the CD1b molecule over the alpha1 and alpha2 domain helices. The location of residues on CD1b important for this interaction suggested that TCRs bind in a diagonal orientation relative to the longitudinal axes of the alpha helices. The data point to a model in which TCR interaction extends over the opening of the putative Ag-binding groove, making multiple direct contacts with both alpha helices and bound Ag. Although reminiscent of TCR interaction with MHC class I, our data also pointed to significant differences between the TCR interactions with CD1 and MHC encoded Ag-presenting molecules, indicating that Ag receptor binding must be modified to accommodate the unique molecular structure of the CD1b molecule and the unusual Ags it presents.


Subject(s)
Antigen Presentation , Antigens, CD1/metabolism , Receptors, Antigen, T-Cell, alpha-beta/metabolism , Antibodies, Blocking/pharmacology , Antibodies, Monoclonal/pharmacology , Antigen Presentation/genetics , Antigens, CD1/blood , Antigens, CD1/genetics , Antigens, CD1/immunology , Cell Line , Clone Cells , Glycolipids/immunology , Glycolipids/metabolism , Humans , Macromolecular Substances , Major Histocompatibility Complex/genetics , Major Histocompatibility Complex/immunology , Models, Immunological , Mutagenesis, Site-Directed , T-Lymphocytes/immunology , T-Lymphocytes/metabolism
11.
Curr Opin Cell Biol ; 12(5): 563-8, 2000 Oct.
Article in English | MEDLINE | ID: mdl-10978890

ABSTRACT

The epithelia are the avascular layers of cells that cover the environment-exposed surfaces of the body. It appears that T cells localize to selected sites in or adjacent to epithelia via the selective expression of adhesion molecules and chemokine receptors on T cells. These bind to counter-receptors and to chemokines expressed by epithelial cells. Recently, there has been an advance in our understanding of the interaction of the alpha(Ebeta7) integrin with its epithelial cell ligand, E-cadherin. In addition, a new adhesion molecule has been identified on non-intestinal epithelial cells, termed lymphocyte-endothelial-epithelial-cell adhesion molecule (LEEP-CAM). Finally, there have been advances in our understanding of the role of skin- or gut-epithelia-derived chemokines in regulating activated T cell homing to these sites.


Subject(s)
Cell Communication , Epithelial Cells/metabolism , T-Lymphocytes/metabolism , Animals , Cadherins/metabolism , Cell Adhesion Molecules/metabolism , Chemokines/metabolism , Epithelial Cells/cytology , Humans , Integrins/metabolism , Membrane Glycoproteins/metabolism , Protein Binding , T-Lymphocytes/cytology
12.
Proc Natl Acad Sci U S A ; 97(15): 8445-50, 2000 Jul 18.
Article in English | MEDLINE | ID: mdl-10890914

ABSTRACT

The ability of antigen-presenting cells to sample distinct intracellular compartments is crucial for microbe detection. Major histocompatibility complex class I and class II molecules sample the cytosol or the late endocytic compartment, allowing detection of microbial peptide antigens that arise in distinct intracellular compartments. In contrast, CD1a and CD1b molecules mediate the presentation of lipid and glycolipid antigens and differentially sample early recycling endosomes or late endocytic compartments, respectively, that contain distinct sets of lipid antigens. Here, we show that, unlike the other CD1 isoforms or major histocompatibility complex molecules that each sample restricted only intracellular compartments, CD1c is remarkable in that it distributes broadly throughout the endocytic system and is expressed in both recycling endosomes and late endocytic compartments. Further, in contrast to CD1b, which requires an acidic environment to function, antigen presentation by CD1c was able to overcome dependence on vesicular acidification. Because CD1c is expressed on essential antigen-presenting cells, such as epidermal Langerhans cells (in the absence of CD1b), or on B cells (without CD1a or -b), we suggest that CD1c molecules allow a comprehensive survey for lipid antigens throughout the endocytic system even in the absence of other CD1 isoforms.


Subject(s)
Antigen Presentation/immunology , Antigens, Bacterial/immunology , Antigens, CD1/immunology , Dendritic Cells/immunology , Endocytosis , Lipids/immunology , Mycobacterium tuberculosis/immunology , Antigens, CD/metabolism , Antigens, CD1/metabolism , Dendritic Cells/metabolism , HeLa Cells , Humans , Jurkat Cells , Lysosomal Membrane Proteins , Lysosomes , Membrane Glycoproteins/metabolism
13.
J Biol Chem ; 275(33): 25652-64, 2000 Aug 18.
Article in English | MEDLINE | ID: mdl-10837471

ABSTRACT

Integrins alpha(E)beta(7) and alpha(4)beta(7) are involved in localization of leukocytes at mucosal sites. Although both alpha(E)beta(7) and alpha(4)beta(7) utilize the beta(7) chain, they have distinct binding specificities for E-cadherin and mucosal addressin cell adhesion molecule-1 (MAdCAM-1), respectively. We found that mutation of the metal ion-dependent adhesion site (MIDAS) in the alpha(E) A-domain (D190A) abolished E-cadherin binding, as did mutation F298A on the A-domain surface near the MIDAS cleft. A docking model of the A-domain with E-cadherin domain 1 indicates that coordination of the alpha(E) MIDAS metal ion by E-cadherin Glu(31) and a novel projection of Phe(298) into a hydrophobic pocket on E-cadherin provide the basis for the interaction. The location of the binding site on the alpha(E) A-domain resembles that on other integrins, but its structure appears distinctive and particularly adapted to recognize the tip of E-cadherin, a unique integrin ligand. Additionally, mutation of the beta(7) MIDAS motif (D140A) abolished alpha(E)beta(7) binding to E-cadherin and alpha(4)beta(7)-mediated adhesion to MAdCAM-1, and alpha(4) chain mutations that abrogated binding of alpha(4)beta(1) to vascular cell adhesion molecule-1 and fibronectin similarly reduced alpha(4)beta(7) interaction with MAdCAM-1. Thus, although specificity can be determined by the integrin alpha or beta chain, common structural features of both subunits are required for recognition of dissimilar ligands.


Subject(s)
Integrin beta Chains , Integrins/chemistry , Amino Acid Sequence , Animals , Antibodies, Monoclonal/metabolism , CHO Cells , Cadherins/metabolism , Cell Adhesion , Cell Adhesion Molecules , Cricetinae , Electrophoresis, Polyacrylamide Gel , Epitope Mapping , Fibronectins/metabolism , Flow Cytometry , Glutamic Acid/chemistry , Humans , Immunoglobulins/metabolism , Integrins/genetics , Integrins/metabolism , K562 Cells , Ligands , Models, Molecular , Molecular Sequence Data , Mucoproteins/metabolism , Mutation , Phenylalanine/chemistry , Precipitin Tests , Protein Binding , Protein Structure, Secondary , Protein Structure, Tertiary , Sequence Homology, Amino Acid , Transfection , Vascular Cell Adhesion Molecule-1/metabolism
14.
J Exp Med ; 191(9): 1555-67, 2000 May 01.
Article in English | MEDLINE | ID: mdl-10790430

ABSTRACT

Cadherins are expressed in tissue-restricted patterns and typically mediate homophilic adhesion. Cadherins also mediate lymphocyte adhesion, providing the opportunity for lymphocyte attachment to parenchymal cells. The best characterized example of lymphocyte adhesion to a tissue-specific cell adhesion molecule, as opposed to a vascular endothelial adhesion molecule, is the interaction between integrin alpha(E)beta(7) on intraepithelial lymphocytes and E-cadherin on epithelial cells. However, the molecular basis for an integrin-cadherin interaction is not well defined. Realization that the cadherin domain adopts a topology similar to the immunoglobulin (Ig) fold suggested that integrin recognition of E-cadherin might be similar to recognition of Ig superfamily ligands. Thus, we modeled domain 1 of human E-cadherin and studied the role of solvent-exposed loops that connect Ig-like core-forming beta strands. Mutational analyses localized the integrin alpha(E)beta(7) recognition site to the top of domain 1 at the face formed by the BC and FG loops, a site distinct from the region recognized in intercellular adhesion molecule (ICAM)-1, -2, and -3, mucosal addressin cell adhesion molecule 1 (MAdCAM-1), vascular cell adhesion molecule 1 (VCAM-1), and fibronectin by their integrin ligands. Moreover, the integrin alpha(E)beta(7) binding site is distinct from the homophilic binding site on E-cadherin. These studies provide a conceptual basis for integrin-cadherin binding and extend the model that an Ig-like fold can serve as a scaffold for recognition.


Subject(s)
Cadherins/metabolism , Epithelial Cells/physiology , Integrins/metabolism , Leukocytes/physiology , Amino Acid Sequence , Binding Sites/genetics , Breast/cytology , Breast/physiology , Cadherins/chemistry , Cadherins/genetics , Cell Adhesion , Cell Adhesion Molecules/chemistry , Female , Fibronectins/chemistry , Humans , Immunoglobulins/genetics , Immunoglobulins/metabolism , Models, Molecular , Molecular Sequence Data , Mutagenesis, Site-Directed , Protein Binding/genetics , Sequence Analysis, Protein , T-Lymphocytes/physiology
15.
J Immunol ; 164(9): 4790-6, 2000 May 01.
Article in English | MEDLINE | ID: mdl-10779786

ABSTRACT

Both the CD4-CD8- (double negative) and CD4-CD8+ T cell lineages have been shown to contain T cells which recognize microbial lipid and glycolipid Ags in the context of human CD1 molecules. To determine whether T cells expressing the CD4 coreceptor could recognize Ag in the context of CD1, we derived CD4+ T cell lines from the lesions of leprosy patients. We identified three CD4+ Mycobacterium leprae-reactive, CD1-restricted T cell lines: two CD1b restricted and one CD1c restricted. These T cell lines recognize mycobacterial Ags, one of which has not been previously described for CD1-restricted T cells. The response of CD4+ CD1-restricted T cells, unlike MHC class II-restricted T cells, was not inhibited by anti-CD4 mAb, suggesting that the CD4 coreceptor does not impact positive or negative selection of CD1-restricted T cells. The CD4+ CD1-restricted T cell lines produced IFN-gamma and GM-CSF, the Th1 pattern of cytokines required for cell-mediated immunity against intracellular pathogens, but no detectable IL-4. The existence of CD4+ CD1-restricted T cells that produce a Th1 cytokine pattern suggests a contributory role in immunity to mycobacterial infection.


Subject(s)
Antigens, CD1/immunology , CD4-Positive T-Lymphocytes/immunology , CD4-Positive T-Lymphocytes/microbiology , Leprosy/immunology , Mycobacterium leprae/immunology , Proteins , T-Lymphocyte Subsets/immunology , T-Lymphocyte Subsets/microbiology , Antigen Presentation , Antigens/biosynthesis , Antigens, Bacterial/immunology , Antigens, Bacterial/metabolism , Antigens, CD1/metabolism , Antigens, Surface , CD4 Antigens/immunology , CD4 Antigens/metabolism , CD4-Positive T-Lymphocytes/metabolism , CD4-Positive T-Lymphocytes/pathology , Cell Membrane/immunology , Cell Membrane/metabolism , Cells, Cultured , Glycolipids/immunology , Glycolipids/metabolism , Humans , Lectins, C-Type , Leprosy/pathology , Lipopolysaccharides/immunology , Lipopolysaccharides/metabolism , Mycolic Acids/immunology , Mycolic Acids/metabolism , NK Cell Lectin-Like Receptor Subfamily B , Peptides/immunology , Peptides/metabolism , Protein Biosynthesis , Receptors, Immunologic/biosynthesis , T-Lymphocyte Subsets/metabolism , T-Lymphocyte Subsets/pathology
16.
Nature ; 404(6780): 884-8, 2000 Apr 20.
Article in English | MEDLINE | ID: mdl-10786796

ABSTRACT

The discovery of the CD1 antigen presentation pathway has expanded the spectrum of T-cell antigens to include lipids, but the range of natural lipid antigens and functions of CD1-restricted T cells in vivo remain poorly understood. Here we show that the T-cell antigen receptor and the CD1c protein mediate recognition of an evolutionarily conserved family of isoprenoid glycolipids whose members include essential components of protein glycosylation and cell-wall synthesis pathways. A CD1c-restricted, mycobacteria-specific T-cell line recognized two previously unknown mycobacterial hexosyl-1-phosphoisoprenoids and structurally related mannosyl-beta1-phosphodolichols. Responses to mannosyl-beta1-phosphodolichols were common among CD1c-restricted T-cell lines and peripheral blood T lymphocytes of human subjects recently infected with M. tuberculosis, but were not seen in naive control subjects. These results define a new class of broadly distributed lipid antigens presented by the CD1 system during infection in vivo and suggest an immune mechanism for recognition of senescent or transformed cells that are known to have altered dolichol lipids.


Subject(s)
Antigens, CD1/immunology , Glycolipids/immunology , Polyisoprenyl Phosphates/immunology , T-Lymphocytes/immunology , Adult , Antibodies, Monoclonal/immunology , Cell Line , Dolichol Monophosphate Mannose/immunology , Female , Glycosylation , Humans , Male , Mycobacterium avium/immunology , Mycobacterium tuberculosis/immunology , Tuberculosis/immunology
17.
J Exp Med ; 191(6): 937-48, 2000 Mar 20.
Article in English | MEDLINE | ID: mdl-10727456

ABSTRACT

The specificity of immunoglobulins and alpha/beta T cell receptors (TCRs) provides a framework for the molecular basis of antigen recognition. Yet, evolution has preserved a separate lineage of gamma/delta antigen receptors that share characteristics of both immunoglobulins and alpha/beta TCRs but whose antigens remain poorly understood. We now show that T cells of the major tissue gamma/delta T cell subset recognize nonpolymorphic CD1c molecules. These T cells proliferated in response to CD1+ presenter cells, lysed CD1c+ targets, and released T helper type 1 (Th1) cytokines. The CD1c-reactive gamma/delta T cells were cytotoxic and used both perforin- and Fas-mediated cytotoxicity. Moreover, they produced granulysin, an important antimicrobial protein. Recognition of CD1c was TCR mediated, as recognition was transferred by transfection of the gamma/delta TCR. Importantly, all CD1c-reactive gamma/delta T cells express V delta 1 TCRs, the TCR expressed by most tissue gamma/delta T cells. Recognition by this tissue pool of gamma/delta T cells provides the human immune system with the capacity to respond rapidly to nonpolymorphic molecules on professional antigen presenting cells (APCs) in the absence of foreign antigens that may activate or eliminate the APCs. The presence of bactericidal granulysin suggests these cells may directly mediate host defense even before foreign antigen-specific T cells have differentiated.


Subject(s)
Antigens, CD1/metabolism , Receptors, Antigen, T-Cell, gamma-delta/metabolism , T-Lymphocyte Subsets/immunology , T-Lymphocyte Subsets/metabolism , Amino Acid Sequence , Anti-Infective Agents/metabolism , Antigen-Presenting Cells/immunology , Antigen-Presenting Cells/metabolism , Antigens, CD1/biosynthesis , Antigens, Differentiation, T-Lymphocyte/biosynthesis , Base Sequence , Cell Differentiation/immunology , Cell Line , Cytotoxicity Tests, Immunologic , Cytotoxicity, Immunologic , Gene Rearrangement, delta-Chain T-Cell Antigen Receptor , Gene Rearrangement, gamma-Chain T-Cell Antigen Receptor , Humans , Immunity, Innate , Lymphocyte Activation , Membrane Glycoproteins/physiology , Molecular Sequence Data , Perforin , Pore Forming Cytotoxic Proteins , Receptors, Antigen, T-Cell, gamma-delta/genetics , Receptors, Antigen, T-Cell, gamma-delta/physiology , T-Lymphocyte Subsets/cytology , T-Lymphocyte Subsets/microbiology , Th1 Cells/immunology , Th1 Cells/metabolism , fas Receptor/physiology
18.
Immunity ; 12(2): 211-21, 2000 Feb.
Article in English | MEDLINE | ID: mdl-10714687

ABSTRACT

NKT cells are associated with immunological control of autoimmune disease and cancer and can recognize cell surface mCD1d without addition of exogenous antigens. Cellular antigens presented by mCD1d have not been identified, although NKT cells can recognize a synthetic glycolipid, alpha-GalCer. Here we show that after addition of a lipid extract from a tumor cell line, plate-bound mCD1d molecules stimulated an NKT cell hybridoma. This hybridoma also responded strongly to three purified phospholipids, but failed to recognize alpha-GalCer. Seven of sixteen other mCD1d restricted hybridomas also showed a response to certain purified phospholipids. These findings suggest NKT cells can recognize cellular antigens distinct from alpha-GalCer and identify phospholipids as potential self-antigens presented by mCD1d.


Subject(s)
Antigens, CD1/immunology , Phospholipids/immunology , T-Lymphocyte Subsets/immunology , Animals , Antigens, CD1d , Hybridomas , Hydrogen-Ion Concentration , Killer Cells, Natural/immunology , Mice , Transfection , Tumor Cells, Cultured
19.
Semin Immunol ; 12(6): 511-6, 2000 Dec.
Article in English | MEDLINE | ID: mdl-11145856

ABSTRACT

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.


Subject(s)
Antigen Presentation/immunology , Antigens, CD1/metabolism , Immunity, Active , Immunity, Innate , T-Lymphocytes/immunology , T-Lymphocytes/metabolism , Animals , Humans , Lymphocyte Activation/immunology
20.
Traffic ; 1(4): 295-300, 2000 Apr.
Article in English | MEDLINE | ID: mdl-11208113

ABSTRACT

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.


Subject(s)
Antigen Presentation , Antigens, CD1/metabolism , Animals , Cytoplasm/metabolism , Endoplasmic Reticulum/metabolism , Endosomes/metabolism , Humans , Lysosomes/metabolism , Microscopy, Immunoelectron , Models, Biological , Monocytes/metabolism , Protein Isoforms , Protein Transport
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