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ABSTRACT: It is well established that dendritic cells (DCs) take up, process, and present lipid Ags in complex with CD1d molecules to invariant NKT cells. The lipid-activated transcription factor, peroxisome proliferator-activated receptor γ (PPARγ), has previously been shown to regulate CD1d expression in human monocyte-derived DCs, providing a link between lipid metabolism and lipid Ag presentation. We report that PPARγ regulates the expression of a lysosomal protease, cathepsin D (CatD), in human monocyte-derived DCs. Inhibition of CatD specifically reduced the expansion of invariant NKT cells and furthermore resulted in decreased maturation of saposins, a group of lipid transfer proteins required for lysosomal lipid Ag processing and loading. These results reveal a novel mechanism of lipid Ag presentation and identify CatD as a key component of this machinery and firmly place PPARγ as the transcriptional regulator linking lipid metabolism and lipid Ag processing.
The Journal of Immunology 07/2011; 187(1):240-7. · 5.79 Impact Factor
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Kwok S Wun,
Garth Cameron,
Onisha Patel,
Siew Siew Pang,
Daniel G Pellicci,
Lucy C Sullivan,
Santosh Keshipeddy,
Mary H Young,
Adam P Uldrich,
Meena S Thakur,
Stewart K Richardson,
Amy R Howell, Petr A Illarionov,
Andrew G Brooks,
Gurdyal S Besra,
James McCluskey,
Laurent Gapin,
Steven A Porcelli,
Dale I Godfrey,
Jamie Rossjohn
[show abstract]
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ABSTRACT: Natural killer T (NKT) cells respond to a variety of CD1d-restricted antigens (Ags), although the basis for Ag discrimination by the NKT cell receptor (TCR) is unclear. Here we have described NKT TCR fine specificity against several closely related Ags, termed altered glycolipid ligands (AGLs), which differentially stimulate NKT cells. The structures of five ternary complexes all revealed similar docking. Acyl chain modifications did not affect the interaction, but reduced NKT cell proliferation, indicating an affect on Ag processing or presentation. Conversely, truncation of the phytosphingosine chain caused an induced fit mode of TCR binding that affected TCR affinity. Modifications in the glycosyl head group had a direct impact on the TCR interaction and associated cellular response, with ligand potency reflecting the t(1/2) life of the interaction. Accordingly, we have provided a molecular basis for understanding how modifications in AGLs can result in striking alterations in the cellular response of NKT cells.
Immunity 03/2011; 34(3):327-39. · 21.64 Impact Factor
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Pooja Arora,
Manjunatha M Venkataswamy,
Andres Baena,
Gabriel Bricard,
Qian Li,
Natacha Veerapen,
Rachel Ndonye,
Jeong Ju Park,
Ji Hyung Lee,
Kyung-Chang Seo,
Amy R Howell,
Young-Tae Chang, Petr A Illarionov,
Gurdyal S Besra,
Sung-Kee Chung,
Steven A Porcelli
[show abstract]
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ABSTRACT: Structural variants of α-galactosylceramide (αGC) that activate invariant natural killer T cells (iNKT cells) are being developed as potential immunomodulatory agents for a variety of applications. Identification of specific forms of these glycolipids that bias responses to favor production of proinflammatory vs anti-inflammatory cytokines is central to current efforts, but this goal has been hampered by the lack of in vitro screening assays that reliably predict the in vivo biological activity of these compounds. Here we describe a fluorescence-based assay to identify functionally distinct αGC analogues. Our assay is based on recent findings showing that presentation of glycolipid antigens by CD1d molecules localized to plasma membrane detergent-resistant microdomains (lipid rafts) is correlated with induction of interferon-γ secretion and Th1-biased cytokine responses. Using an assay that measures lipid raft residency of CD1d molecules loaded with αGC, we screened a library of ∼200 synthetic αGC analogues and identified 19 agonists with potential Th1-biasing activity. Analysis of a subset of these novel candidate Th1 type agonists in vivo in mice confirmed their ability to induce systemic cytokine responses consistent with a Th1 type bias. These results demonstrate the predictive value of this novel in vitro assay for assessing the in vivo functionality of glycolipid agonists and provide the basis for a relatively simple high-throughput assay for identification and functional classification of iNKT cell activating glycolipids.
Journal of the American Chemical Society 03/2011; 133(14):5198-201. · 9.91 Impact Factor
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Gabriel Bricard,
Manjunatha M Venkataswamy,
Karl O A Yu,
Jin S Im,
Rachel M Ndonye,
Amy R Howell,
Natacha Veerapen, Petr A Illarionov,
Gurdyal S Besra,
Qian Li,
Young-Tae Chang,
Steven A Porcelli
[show abstract]
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ABSTRACT: CD1d-restricted natural killer T cells with invariant T cell receptor α chains (iNKT cells) are a unique lymphocyte subset that responds to recognition of specific lipid and glycolipid antigens. They are conserved between mice and humans and exert various immunoregulatory functions through their rapid secretion of a variety of cytokines and secondary activation of dendritic cells, B cells and NK cells. In the current study, we analyzed the range of functional activation states of human iNKT cells using a library of novel analogs of α-galactosylceramide (αGalCer), the prototypical iNKT cell antigen. Measurement of cytokines secreted by human iNKT cell clones over a wide range of glycolipid concentrations revealed that iNKT cell ligands could be classified into functional groups, correlating with weak versus strong agonistic activity. The findings established a hierarchy for induction of different cytokines, with thresholds for secretion being consistently lowest for IL-13, higher for interferon-γ (IFNγ), and even higher for IL-4. These findings suggested that human iNKT cells can be intrinsically polarized to selective production of IL-13 by maintaining a low level of activation using weak agonists, whereas selective polarization to IL-4 production cannot be achieved through modulating the strength of the activating ligand. In addition, using a newly designed in vitro system to assess the ability of human iNKT cells to transactivate NK cells, we found that robust secondary induction of interferon-γ secretion by NK cells was associated with strong but not weak agonist ligands of iNKT cells. These results indicate that polarization of human iNKT cell responses to Th2-like or anti-inflammatory effects may best be achieved through selective induction of IL-13 and suggest potential discrepancies with findings from mouse models that may be important in designing iNKT cell-based therapies in humans.
PLoS ONE 01/2010; 5(12):e14374. · 4.09 Impact Factor
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Jin S Im,
Pooja Arora,
Gabriel Bricard,
Alberto Molano,
Manjunatha M Venkataswamy,
Ian Baine,
Elliot S Jerud,
Michael F Goldberg,
Andres Baena,
Karl O A Yu,
Rachel M Ndonye,
Amy R Howell,
Weiming Yuan,
Peter Cresswell,
Young-Tae Chang, Petr A Illarionov,
Gurdyal S Besra,
Steven A Porcelli
[show abstract]
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ABSTRACT: CD1d-restricted natural killer T cells (NKT cells) possess a wide range of effector and regulatory activities that are related to their ability to secrete both T helper 1 (Th1) cell- and Th2 cell-type cytokines. We analyzed presentation of NKT cell activating alpha galactosylceramide (alphaGalCer) analogs that give predominantly Th2 cell-type cytokine responses to determine how ligand structure controls the outcome of NKT cell activation. Using a monoclonal antibody specific for alphaGalCer-CD1d complexes to visualize and quantitate glycolipid presentation, we found that Th2 cell-type cytokine-biasing ligands were characterized by rapid and direct loading of cell-surface CD1d proteins. Complexes formed by association of these Th2 cell-type cytokine-biasing alphaGalCer analogs with CD1d showed a distinctive exclusion from ganglioside-enriched, detergent-resistant plasma membrane microdomains of antigen-presenting cells. These findings help to explain how subtle alterations in glycolipid ligand structure can control the balance of proinflammatory and anti-inflammatory activities of NKT cells.
Immunity 07/2009; 30(6):888-98. · 21.64 Impact Factor
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Rachel D Kuns,
Edward S Morris,
Kelli P A Macdonald,
Kate A Markey,
Helen M Morris,
Neil C Raffelt,
Tatjana Banovic,
Alistair L J Don,
Vanessa Rowe,
Angela C Burman,
Andrew D Clouston,
Camile Farah,
Gurdyal S Besra, Petr A Illarionov,
Mark J Smyth,
Steven A Porcelli,
Geoffrey R Hill
[show abstract]
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ABSTRACT: Invariant natural killer T cells (iNKT cells) have pivotal roles in graft-versus-host disease (GVHD) and graft-versus-leukemia (GVL) effects. iNKT cells are activated through their T-cell receptors by glycolipid moieties (typically the alpha-galactosylceramide [alpha-GalCer] derivative KRN7000) presented within CD1d. We investigated the ability of modified alpha-GalCer molecules to differentially modulate alloreactivity and GVL. KRN7000 and the N-acyl variant, C20:2, were administered in multiple well-established murine models of allogeneic stem cell transplantation. The highly potent and specific activation of all type I NKT cells with C20:2 failed to exacerbate and in most settings inhibited GVHD late after transplantation, whereas effects on GVL were variable. In contrast, the administration of KRN7000 induced hyperacute GVHD and early mortality in all models tested. Administration of KRN7000, but not C20:2, was found to result in downstream interleukin (IL)-12 and dendritic cell (DC)-dependent natural killer (NK)- and conventional T-cell activation. Specific depletion of host DCs, IL-12, or donor NK cells prevented this pathogenic response and the induction of hyperacute GVHD. These data demonstrate the ability of profound iNKT activation to modulate both the innate and adaptive immune response via the DC-NK-cell interaction and raise concern for the use of alpha-GalCer therapeutically to modulate GVHD and GVL effects.
Blood 05/2009; 113(23):5999-6010. · 9.90 Impact Factor
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Jin S Im,
Tae-Jin Kang,
Seong-Beom Lee,
Chi-Hong Kim,
Sang-Haak Lee,
Manjunatha M Venkataswamy,
Evan R Serfass,
Bing Chen, Petr A Illarionov,
Gurdyal S Besra,
William R Jacobs,
Gue-Tae Chae,
Steven A Porcelli
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ABSTRACT: CD1d-restricted invariant natural killer T cells (iNKT cells) have been identified as an important type of effector and regulatory T cell, but their roles in the chronic infectious diseases caused by Mycobacterium tuberculosis and Mycobacterium leprae remain poorly defined. Here, we studied circulating human iNKT cells in blood samples from tuberculosis (TB) and leprosy patients. We found that the percentages of iNKT cells among total circulating T cells in TB and leprosy patients were not significantly different from those in normal controls. However, both TB and leprosy patients showed a selective reduction of the proinflammatory CD4(-)CD8beta(-) (DN) iNKT cells with a proportionate increase in the CD4(+) iNKT cells. Similar phenotypic alterations in circulating iNKT cells were observed in a mouse model of M. tuberculosis infection. Taken together, these findings indicate that the selective reduction of circulating DN iNKT cells is associated with chronic infections caused by M. tuberculosis and M. leprae.
Clinical Immunology 06/2008; 127(2):214-24. · 4.05 Impact Factor
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ABSTRACT: The intracellular enzyme indoleamine 2,3-dioxygenase (IDO), which degrades the rare and essential amino acid tryptophan and converts it into a series of biologically active catabolites, has been linked to the regulation of immune tolerance by specific dendritic cell subsets, and to the downmodulation of exacerbated immune responses. Although the immunoregulatory effects of IDO may be in part due to generalized suppression of cell proliferation caused by tryptophan starvation, there is also evidence that tryptophan catabolites could be directly responsible for some of the observed effects. In this report, we investigated the consequences of IDO activity, particularly with regard to the effects of tryptophan-derived catabolites, on the cytokine responses of activated invariant natural killer T (iNKT) cells, a specialized T cell subset known to have immunoregulatory properties. Our results showed that pharmacologic inhibition of IDO skewed cytokine responses of iNKT cells towards a Th1 profile. In contrast, the presence at low micromolar concentrations of the tryptophan catabolites l-kynurenine, 3-hydroxy-kynurenine, or 3-hydroxy-anthranilic acid shifted the cytokine balance towards a Th2 pattern. These findings have implications for our current understanding of immunoregulation, and the mechanisms by which iNKT cells participate in the modulation of immune responses.
Immunology Letters 05/2008; 117(1):81-90. · 2.53 Impact Factor
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David S Leslie,
Christopher C Dascher,
Katherine Cembrola,
Maria A Townes,
David L Hava,
Lynne C Hugendubler,
Elisabetta Mueller,
Lisa Fox,
Carme Roura-Mir,
D Branch Moody,
Michael S Vincent,
Jenny E Gumperz, Petr A Illarionov,
Gurdyal S Besra,
Carol G Reynolds,
Michael B Brenner
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ABSTRACT: Dendritic cells (DCs) are highly potent antigen-presenting cells (APCs) and play a vital role in stimulating naïve T cells. Treatment of human blood monocytes with the cytokines granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin (IL)-4 stimulates them to develop into immature dendritic cells (iDCs) in vitro. DCs generated by this pathway have a high capacity to prime and activate resting T cells and prominently express CD1 antigen-presenting molecules on the cell surface. The presence of human serum during the differentiation of iDCs from monocytes inhibits the expression of CD1a, CD1b and CD1c, but not CD1d. Correspondingly, T cells that are restricted by CD1c showed poor responses to DCs that were generated in the presence of human serum, while the responses of CD1d-restricted T cells were enhanced. We chemically fractionated human serum to isolate the bioactive factors that modulate surface expression of CD1 proteins during monocyte to DC differentiation. The human serum components that affected CD1 expression partitioned with polar organic soluble fractions. Lysophosphatidic acid and cardiolipin were identified as lipids present in normal human serum that potently modulate CD1 expression. Control of CD1 expression was mediated at the level of gene transcription and correlated with activation of the peroxisome proliferator-activated receptor (PPAR) nuclear hormone receptors. These findings indicate that the ability of human DCs to present lipid antigens to T cells through expression of CD1 molecules is sensitively regulated by lysophosphatidic acid and cardiolipin in serum, which are ligands that can activate PPAR transcription factors.
Immunology 05/2008; 125(3):289-301. · 3.32 Impact Factor
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Galit Denkberg,
Victoria S Stronge,
Efrat Zahavi,
Paola Pittoni,
Ravit Oren,
Dawn Shepherd,
Mariolina Salio,
Corinna McCarthy, Petr A Illarionov,
Anton van der Merwe,
Gurdyal S Besra,
Paolo Dellabona,
Giulia Casorati,
Vincenzo Cerundolo,
Yoram Reiter
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ABSTRACT: The glycolipid alpha-galactosylceramide (alpha-GalCer) is a potent activator of invariant natural killer T (iNKT) cells and has been shown to be an effective agent against cancer, infections and autoimmune diseases. The effectiveness of alpha-GalCer and its alkyl chain analogues depends on efficient loading and presentation by the antigen-presenting molecule CD1d. To monitor the ability of CD1d to present the glycolipids, we have used a phage display strategy to generate recombinant antibodies with T cell receptor-like (TCRL) specificity against the human CD1d (hCD1d)-alpha-GalCer complex. These Fab fragments were able to detect specifically hCD1d-alpha-GalCer complexes in cell-free systems such as surface plasmon resonance and ELISA, as well as on the surface of hCD1d(+) antigen-presenting cells (APC) by flow cytometry and immunofluorescence microscopy, the latter of which could also detect intracellular complexes. We show that our TCRL antibodies can stain dendritic cells from CD11c-hCD1d-transgenic mice administered in vivo with alpha-GalCer and its analogues. Furthermore, the antibody was also able to detect the presentation by hCD1d molecules of analogues of alpha-GalCer with the same polar head structure. Using this reagent, we were able to confirm directly that the alpha-GalCer analogue C20:2 preferentially loads onto cell surface CD1d rapidly without the need for internalization, while the loading of alpha-GalCer is improved with longer incubation times on professional APC. This reagent will be essential for assessing the loading and presenting capabilities of hCD1d of alpha-GalCer and its analogues.
European Journal of Immunology 04/2008; 38(3):829-40. · 5.10 Impact Factor
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ABSTRACT: Invariant natural killer T (iNKT) cells are a subset of nonconventional T cells recognizing endogenous and/or exogenous glycolipid antigens in the context of CD1d molecules. It remains unclear whether innate stimuli can modify the profile of endogenous lipids recognized by iNKT cells on the surface of antigen-presenting cells (APCs). We report that activation of human APCs by Toll-like receptor ligands (TLR-L) modulates the lipid biosynthetic pathway, resulting in enhanced recognition of CD1d-associated lipids by iNKT cells, as defined by IFN-gamma secretion. APC-derived soluble factors further increase CD1d-restricted iNKT cell activation. Finally, using soluble tetrameric iNKT T cell receptors (TCR) as a staining reagent, we demonstrate specific up-regulation of CD1d-bound ligand(s) on TLR-mediated APC maturation. The ability of innate stimuli to modulate the lipid profile of APCs resulting in iNKT cell activation and APC maturation underscores the role of iNKT cells in assisting priming of antigen-specific immune responses.
Proceedings of the National Academy of Sciences 01/2008; 104(51):20490-5. · 9.68 Impact Factor
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ABSTRACT: The alpha-galactosylceramide (alpha-GalCer) known as KRN7000 remains the best studied ligand of the lipid-binding MHC class I-like protein CD1d. The KRN7000:CD1d complex is highly recognized by invariant natural killer T (iNKT) cells, an evolutionarily conserved subset of T lymphocytes that express an unusual semi-invariant T cell antigen receptor, and mediate a variety of proinflammatory and immunoregulatory functions. To facilitate the study of glycolipid antigen presentation to iNKT cells by CD1d, we undertook the production of mouse monoclonal antibodies (mAbs) specific for complexes of KRN7000 bound to mouse CD1d (mCD1d) proteins. Three such monoclonal antibodies were isolated that bound only to mCD1d proteins that were loaded with KRN7000 or closely-related forms of alpha-GalCer. These mAbs showed no reactivity with mCD1d proteins that were not loaded with alpha-GalCer, nor did they bind to complexes formed by loading mCD1d with the self-glycolipid and putative iNKT cell ligand isoglobotrihexosylceramide. These complex-specific monoclonal antibodies allow the direct detection and monitoring of complexes formed by the binding of KRN7000 and other alpha-GalCer analogues to mCD1d. The availability of these mAbs should facilitate a wide range of studies on the biology and potential clinical applications of CD1d-restricted iNKT cells.
Journal of Immunological Methods 06/2007; 323(1):11-23. · 2.20 Impact Factor
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ABSTRACT: CD1d molecules present both self Ags and microbial lipids to NKT cells. Previous studies have established that CD1d lysosomal trafficking is required for presentation of autoantigens to murine invariant NKT cells. We show in this study that this is not necessary for autoantigen presentation by human CD1d, but significantly affects the presentation of exogenous Ags. Wild-type and tail-deleted CD1d molecules stimulated similar autoreactive responses by human NKT clones, whereas presentation of exogenous lipids by tail-deleted CD1d was highly inefficient. Chloroquine treatment markedly inhibited exogenous Ag presentation by wild-type CD1d transfectants, but did not affect NKT autoreactive responses. Conversely, APC expression of HLA-DRalphabeta and the invariant chain (Ii) was associated with faster internalization of CD1d into the endocytic system and enhanced CD1d-mediated presentation of exogenous Ags, but did not appear to augment NKT autoreactivity. Knockdown of the Ii by small interfering RNA resulted in reduced CD1d surface expression and slower internalization in HLA-DR+ APCs, but not HLA-DR- APCs, demonstrating a direct effect of MHC/Ii complexes on CD1d trafficking. CD1d-mediated presentation of exogenous Ags was much more efficient in immature dendritic cells, which actively recycle MHC class II molecules through the endocytic system, than in mature dendritic cells that have stabilized MHC class II expression at the cell surface, suggesting a physiological role for MHC/Ii complexes in modulating CD1d function. These results indicate that autoantigens and exogenous lipids are acquired by human CD1d at distinct cellular locations, and that Ii trafficking selectively regulates CD1d-mediated presentation of extracellular Ags.
The Journal of Immunology 06/2007; 178(10):6181-90. · 5.79 Impact Factor
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Corinna McCarthy,
Dawn Shepherd,
Sebastian Fleire,
Victoria S Stronge,
Michael Koch, Petr A Illarionov,
Giovanna Bossi,
Mariolina Salio,
Galit Denkberg,
Faye Reddington,
Andrea Tarlton,
B Gopal Reddy,
Richard R Schmidt,
Yoram Reiter,
Gillian M Griffiths,
P Anton van der Merwe,
Gurdyal S Besra,
E Yvonne Jones,
Facundo D Batista,
Vincenzo Cerundolo
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ABSTRACT: CD1d-restricted lymphocytes recognize a broad lipid range. However, how CD1d-restricted lymphocytes translate T cell receptor (TCR) recognition of lipids with similar group heads into distinct biological responses remains unclear. Using a soluble invariant NKT (iNKT) TCR and a newly engineered antibody specific for alpha-galactosylceramide (alpha-GalCer)-human CD1d (hCD1d) complexes, we measured the affinity of binding of iNKT TCR to hCD1d molecules loaded with a panel of alpha-GalCer analogues and assessed the rate of dissociation of alpha-GalCer and alpha-GalCer analogues from hCD1d molecules. We extended this analysis by studying iNKT cell synapse formation and iNKT cell activation by the same panel of alpha-GalCer analogues. Our results indicate the unique role of the lipid chain occupying the hCD1d F' channel in modulating TCR binding affinity to hCD1d-lipid complexes, the formation of stable immunological synapse, and cell activation. These data are consistent with previously described conformational changes between empty and loaded hCD1d molecules (Koch, M., V.S. Stronge, D. Shepherd, S.D. Gadola, B. Mathew, G. Ritter, A.R. Fersht, G.S. Besra, R.R. Schmidt, E.Y. Jones, and V. Cerundolo. 2005. Nat. Immunol 6:819-826), suggesting that incomplete occupation of the hCD1d F' channel results in conformational differences at the TCR recognition surface. This indirect effect provides a general mechanism by which lipid-specific lymphocytes are capable of recognizing both the group head and the length of lipid antigens, ensuring greater specificity of antigen recognition.
Journal of Experimental Medicine 06/2007; 204(5):1131-44. · 13.85 Impact Factor
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ABSTRACT: CD1d molecules bind lipid antigens in the endocytic pathway, and access to the pathway is important for the development of CD1d-restricted natural killer T (NKT) cells. Saposins, derived from a common precursor, prosaposin, are small, heat-stable lysosomal glycoproteins required for lysosomal degradation of sphingolipids. Expression of prosaposin is required for efficient lipid binding and recognition of human CD1d molecules by NKT cells. Despite high sequence homology among the four saposins, they have different specificities for lipid substrates and different mechanisms of action. To determine the saposins involved in promoting lipid binding to CD1d, we expressed prosaposin deletion mutants lacking individual saposins in prosaposin-negative, CD1d-positive cells. No individual saposin proved to be absolutely essential, but the absence of saposin B resulted in the lowest recognition of alpha-galactosylceramide by NKT cells. When recombinant exogenous saposins were added to the prosaposin-negative cells, saposin B was the most efficient in restoring CD1d recognition. Saposin B was also the most efficient in mediating alpha-galactosylceramide binding to recombinant plate-bound CD1d and facilitating NKT cell activation. Saposin B could also mediate lipid binding to soluble CD1d molecules in a T cell-independent assay. The optimal pH for saposin B-mediated lipid binding to CD1d, pH 6, is higher than that of lysosomes, suggesting that saposin B may facilitate lipid binding to CD1d molecules throughout the endocytic pathway.
Proceedings of the National Academy of Sciences 04/2007; 104(13):5551-6. · 9.68 Impact Factor
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Crina Paduraru,
Laurentiu Spiridon,
Weiming Yuan,
Gabriel Bricard,
Xavier Valencia,
Steven A Porcelli, Petr A Illarionov,
Gurdyal S Besra,
Stefana M Petrescu,
Andrei-Jose Petrescu,
Peter Cresswell
[show abstract]
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ABSTRACT: Human CD1d molecules consist of a transmembrane CD1 (cluster of differentiation 1) heavy chain in association with beta(2)-microglobulin (beta(2)m). Assembly occurs in the endoplasmic reticulum (ER) and involves the initial glycan-dependent association of the free heavy chain with calreticulin and calnexin and the thiol oxidoreductase ERp57. Folding and disulfide bond formation within the heavy chain occurs prior to beta(2)m binding. There are four N-linked glycans on the CD1d heavy chain, and we mutated them individually to ascertain their importance for the assembly and function of CD1d-beta(2)m heterodimers. None of the four were indispensable for assembly or the ability to bind alpha-galactosyl ceramide and to present it to human NKT cells. Nor were any required for the CD1d molecule to bind and present alpha-galactosyl ceramide after lysosomal processing of a precursor lipid, galactosyl-(alpha1-2)-galactosyl ceramide. However, one glycan, glycan 2 at Asn-42, proved to be of particular importance for the stability of the CD1d-beta(2)m heterodimer. A mutant CD1d heavy chain lacking glycan 2 assembled with beta(2)m and transported from the ER more rapidly than wild-type CD1d and dissociated more readily from beta(2)m upon exposure to detergents. A mutant expressing only glycan 1 dissociated completely from beta(2)m upon exposure to the detergent Triton X-100, whereas a mutant expressing only glycan 2 at Asn-42 was more stable. In addition, glycan 2 was not processed efficiently to the complex form in mature wild-type CD1d molecules. Modeling the glycans on the published structure indicated that glycan 2 interacts significantly with both the CD1d heavy chain and beta(2)m, which may explain these unusual properties.
Journal of Biological Chemistry 01/2007; 281(52):40369-78. · 4.77 Impact Factor
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Qian Li,
Rachel M. Ndonye, Petr A. Illarionov,
Karl O. A. Yu,
Elliot S. Jerud,
Kristine Diaz,
Gabriel Bricard,
Steven A. Porcelli,
Gurdyal S. Besra,
Young-Tae Chang,
Amy R. Howell
Journal of Combinatorial Chemistry - J COMB CHEM. 01/2007; 9(6):1084-1093.
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Crina Paduraru,
Laurentiu Spiridon,
Weiming Yuan,
Gabriel Bricard,
Xavier Valencia,
Steven A. Porcelli, Petr A. Illarionov,
Gurdyal S. Besra,
Stefana M. Petrescu,
Andrei-Jose Petrescu,
Peter Cresswell
[show abstract]
[hide abstract]
ABSTRACT: Human CD1d molecules consist of a transmembrane CD1 (cluster of differentiation 1) heavy chain in association with β2-microglobulin (β2m). Assembly occurs in the endoplasmic reticulum (ER) and involves the initial glycan-dependent association of the free heavy
chain with calreticulin and calnexin and the thiol oxidoreductase ERp57. Folding and disulfide bond formation within the heavy
chain occurs prior to β2m binding. There are four N-linked glycans on the CD1d heavy chain, and we mutated them individually to ascertain their importance for the assembly and
function of CD1d-β2m heterodimers. None of the four were indispensable for assembly or the ability to bind α-galactosyl ceramide and to present
it to human NKT cells. Nor were any required for the CD1d molecule to bind and present α-galactosyl ceramide after lysosomal
processing of a precursor lipid, galactosyl-(α1-2)-galactosyl ceramide. However, one glycan, glycan 2 at Asn-42, proved to
be of particular importance for the stability of the CD1d-β2m heterodimer. A mutant CD1d heavy chain lacking glycan 2 assembled with β2m and transported from the ER more rapidly than wild-type CD1d and dissociated more readily from β2m upon exposure to detergents. A mutant expressing only glycan 1 dissociated completely from β2m upon exposure to the detergent Triton X-100, whereas a mutant expressing only glycan 2 at Asn-42 was more stable. In addition,
glycan 2 was not processed efficiently to the complex form in mature wild-type CD1d molecules. Modeling the glycans on the
published structure indicated that glycan 2 interacts significantly with both the CD1d heavy chain and β2m, which may explain these unusual properties.
Journal of Biological Chemistry 12/2006; 281(52):40369-40378. · 4.77 Impact Factor
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ABSTRACT: Glycolipid ligands for invariant natural killer T cells (iNKT cells) are loaded onto CD1d molecules in the late endosome/lysosome. Accumulation of glycosphingolipids (GSLs) in lysosomal storage diseases could potentially influence endogenous and exogenous lipid loading and/or presentation and, thus, affect iNKT cell selection or function. The percentages and frequency of iNKT cells were reduced in multiple mouse models of lysosomal GSL storage disease, irrespective of the specific genetic defect or lipid species stored. Reduced numbers of iNKT cells resulted in the absence of cytokine production in response to alpha-galactosylceramide (alpha-GalCer) and reduced iNKT cell-mediated lysis of wild-type targets loaded with alpha-GalCer. The reduction in iNKT cells did not result from defective expression of CD1d or a lack of antigen-presenting cells. Although H-2 restricted CD4(+) T cell responses were generally unaffected, processing of a lysosome-dependent analogue of alpha-GalCer was impaired in all the strains of mice tested. These data suggest that GSL storage may result in alterations in thymic selection of iNKT cells caused by impaired presentation of selecting ligands.
Journal of Experimental Medicine 11/2006; 203(10):2293-303. · 13.85 Impact Factor
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ABSTRACT: CD1d-restricted NKT cells expressing invariant TCR alpha-chains (iNKT cells) produce both proinflammatory and anti-inflammatory cytokines rapidly upon activation, and are believed to play an important role in both host defense and immunoregulation. To address the potential implications of iNKT cell responses for infectious or inflammatory diseases of the nervous system, we investigated the expression of CD1d in human peripheral nerve. We found that CD1d was expressed on the surface of Schwann cells in situ and on primary or immortalized Schwann cell lines in culture. Schwann cells activated iNKT cells in a CD1d-dependent manner in the presence of alpha-galactosylceramide. Surprisingly, the cytokine production of iNKT cells stimulated by alpha-galactosylceramide presented by CD1d+ Schwann cells showed a predominance of Th2-associated cytokines such as IL-5 and IL-13 with a marked deficiency of proinflammatory Th1 cytokines such as IFN-gamma or TNF-alpha. Our findings suggest a mechanism by which iNKT cells may restrain inflammatory responses in peripheral nerves, and raise the possibility that the expression of CD1d by Schwann cells could be relevant in the pathogenesis of infectious and inflammatory diseases of the peripheral nervous system.
The Journal of Immunology 11/2006; 177(8):5226-35. · 5.79 Impact Factor
