Microbiology & Immunology - Research Publications
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ItemHumans lack iGb3 due to the absence of functional iGb3-synthase: Implications for NKT cell development and transplantation(PUBLIC LIBRARY SCIENCE, 2008-07)The glycosphingolipid isoglobotrihexosylceramide, or isogloboside 3 (iGb3), is believed to be critical for natural killer T (NKT) cell development and self-recognition in mice and humans. Furthermore, iGb3 may represent an important obstacle in xenotransplantation, in which this lipid represents the only other form of the major xenoepitope Galalpha(1,3)Gal. The role of iGb3 in NKT cell development is controversial, particularly with one study that suggested that NKT cell development is normal in mice that were rendered deficient for the enzyme iGb3 synthase (iGb3S). We demonstrate that spliced iGb3S mRNA was not detected after extensive analysis of human tissues, and furthermore, the iGb3S gene contains several mutations that render this product nonfunctional. We directly tested the potential functional activity of human iGb3S by expressing chimeric molecules containing the catalytic domain of human iGb3S. These hybrid molecules were unable to synthesize iGb3, due to at least one amino acid substitution. We also demonstrate that purified normal human anti-Gal immunoglobulin G can bind iGb3 lipid and mediate complement lysis of transfected human cells expressing iGb3. Collectively, our data suggest that iGb3S is not expressed in humans, and even if it were expressed, this enzyme would be inactive. Consequently, iGb3 is unlikely to represent a primary natural ligand for NKT cells in humans. Furthermore, the absence of iGb3 in humans implies that it is another source of foreign Galalpha(1,3)Gal xenoantigen, with obvious significance in the field of xenotransplantation.
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ItemChewing the fat on natural killer T cell development(ROCKEFELLER UNIV PRESS, 2006-10-02)Natural killer T cells (NKT cells) are selected in the thymus by self-glycolipid antigens presented by CD1d molecules. It is currently thought that one specific component of the lysosomal processing pathway, which leads to the production of isoglobotrihexosylceramide (iGb3), is essential for normal NKT cell development. New evidence now shows that NKT cell development can be disrupted by a diverse range of mutations that interfere with different elements of the lysosomal processing and degradation of glycolipids. This suggests that lysosomal storage diseases (LSDs) in general, rather than one specific defect, can disrupt CD1d antigen presentation, leading to impaired development of NKT cells.
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ItemActivation of invariant NKT cells exacerbates experimental visceral leishmaniasis(PUBLIC LIBRARY SCIENCE, 2008-02)We report that natural killer T (NKT) cells play only a minor physiological role in protection from Leishmania donovani infection in C57BL/6 mice. Furthermore, attempts at therapeutic activation of invariant NKT (iNKT) cells with alpha-galactosylceramide (alpha-GalCer) during L. donovani infection exacerbated, rather than ameliorated, experimental visceral leishmaniasis. The inability of alpha-GalCer to promote anti-parasitic immunity did not result from inefficient antigen presentation caused by infection because alpha-GalCer-loaded bone marrow-derived dendritic cells were also unable to improve disease resolution. The immune-dampening affect of alpha-GalCer correlated with a bias towards increased IL-4 production by iNKT cells following alpha-GalCer stimulation in infected mice compared to naïve controls. However, studies in IL-4-deficient mice, and IL-4 neutralisation in cytokine-sufficient mice revealed that alpha-GalCer-induced IL-4 production during infection had only a minor role in impaired parasite control. Analysis of liver cell composition following alpha-GalCer stimulation during an established L. donovani infection revealed important differences, predominantly a decrease in IFNgamma+ CD8+ T cells, compared with control-treated mice. Our data clearly illustrate the double-edged sword of NKT cell-based therapy, showing that in some circumstances, such as when sub-clinical or chronic infections exist, iNKT cell activation can have adverse outcomes.
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ItemA natural killer T (NKT) cell developmental pathway involving a thymus-dependent NK1.1- CD4+ CD1d-dependent precursor stage(ROCKEFELLER UNIV PRESS, 2002-04-01)The development of CD1d-dependent natural killer T (NKT) cells is poorly understood. We have used both CD1d/alpha-galactosylceramide (CD1d/alphaGC) tetramers and anti-NK1.1 to investigate NKT cell development in vitro and in vivo. Confirming the thymus-dependence of these cells, we show that CD1d/alphaGC tetramer-binding NKT cells, including NK1.1(+) and NK1.1(-) subsets, develop in fetal thymus organ culture (FTOC) and are completely absent in nude mice. Ontogenically, CD1d/alphaGC tetramer-binding NKT cells first appear in the thymus, at day 5 after birth, as CD4(+)CD8(-)NK1.1(-)cells. NK1.1(+) NKT cells, including CD4(+) and CD4(-)CD8(-) subsets, appeared at days 7-8 but remained a minor subset until at least 3 wk of age. Using intrathymic transfer experiments, CD4(+)NK1.1(-) NKT cells gave rise to NK1.1(+) NKT cells (including CD4(+) and CD4(-) subsets), but not vice-versa. This maturation step was not required for NKT cells to migrate to other tissues, as NK1.1(-) NKT cells were detected in liver and spleen as early as day 8 after birth, and the majority of NKT cells among recent thymic emigrants (RTE) were NK1.1(-). Further elucidation of this NKT cell developmental pathway should prove to be invaluable for studying the mechanisms that regulate the development of these cells.
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ItemA structural basis for selection and cross-species reactivity of the semi-invariant NKT cell receptor in CD1d/glycolipid recognition(ROCKEFELLER UNIV PRESS, 2006-03-20)Little is known regarding the basis for selection of the semi-invariant alphabeta T cell receptor (TCR) expressed by natural killer T (NKT) cells or how this mediates recognition of CD1d-glycolipid complexes. We have determined the structures of two human NKT TCRs that differ in their CDR3beta composition and length. Both TCRs contain a conserved, positively charged pocket at the ligand interface that is lined by residues from the invariant TCR alpha- and semi-invariant beta-chains. The cavity is centrally located and ideally suited to interact with the exposed glycosyl head group of glycolipid antigens. Sequences common to mouse and human invariant NKT TCRs reveal a contiguous conserved "hot spot" that provides a basis for the reactivity of NKT cells across species. Structural and functional data suggest that the CDR3beta loop provides a plasticity mechanism that accommodates recognition of a variety of glycolipid antigens presented by CD1d. We propose a model of NKT TCR-CD1d-glycolipid interaction in which the invariant CDR3alpha loop is predicted to play a major role in determining the inherent bias toward CD1d. The findings define a structural basis for the selection of the semi-invariant alphabeta TCR and the unique antigen specificity of NKT cells.
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ItemLocalization of Idd11 is not associated with thymus and NKT cell abnormalities in NOD mice(AMER DIABETES ASSOC, 2005-12)Congenic mouse strains provide a unique resource for genetic dissection and biological characterization of chromosomal regions associated with diabetes progression in the nonobese diabetic (NOD) mouse. Idd11, a mouse diabetes susceptibility locus, was previously localized to a region on chromosome 4. Comparison of a panel of subcongenic NOD mouse strains with different intervals derived from the nondiabetic C57BL/6 (B6) strain now maps Idd11 to an approximately 8-Mb interval. B6-derived intervals protected congenic NOD mice from diabetes onset, even though lymphocytic infiltration of pancreatic islets was similar to that found in NOD mice. In addition, neither thymic structural irregularities nor NKT cell deficiencies were ameliorated in diabetes-resistant congenic NOD mice, indicating that Idd11 does not contribute to these abnormalities, which do not need to be corrected to prevent disease.
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ItemThe influence of CD1d in postselection NKT cell maturation and homeostasis(AMER ASSOC IMMUNOLOGISTS, 2005-09-15)After being positively selected on CD1d-expressing thymocytes, NKT cells undergo a series of developmental changes that can take place inside or outside the thymus. We asked whether CD1d continues to play a role in late-stage NKT cell development and, in particular, during the functionally significant acquisition of NK1.1 that is indicative of NKT cell maturity. We report that CD1d is indeed crucial for this step, because immature NK1.1(-) NKT cells fail to fully mature when transferred to a CD1d-deficient environment. Surprisingly, however, the lack of CD1d did not greatly affect the long-term survival of NKT cells, and they continued to express CD69 and slowly proliferate. This directly contradicts the currently held view that these phenomena are caused by autoreactivity directed against CD1d/TCR-restricted self-Ags. Our findings demonstrate an ongoing role for TCR-mediated signaling throughout NKT cell development, but the characteristic semiactivated basal state of NKT cells is controlled by CD1d-independent factors or is intrinsic to the cells themselves.