Shenglou Deng scite author profile

Summary Glycosylceramides in mammalian species are thought to be present in the form of β-anomers. This conclusion was reinforced by the identification of only one glucosylceramide and one galactosylcerhamide synthase, both β-transferases, in mammalian genomes. Thus, the possibility that small amounts of α-anomers could be produced by an alternative enzymatic pathway, by an unfaithful enzyme, or spontaneously in unusual cellular compartments has not been examined in detail. We approached the question by taking advantage of the exquisite specificity of T and B lymphocytes and combined it with the specificity of catabolic enzymes of the sphingolipid pathway. Here, we demonstrate that mammalian immune cells produce constitutively very small quantities of α-glycosylceramides, which are the major endogenous ligands of natural killer T cells. Catabolic enzymes of the ceramide and glycolipid pathway tightly control the amount of these α-glycosylceramides. The exploitation of this pathway to manipulate the immune response will create new therapeutic opportunities.

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Degradation of PFOA Substitute: GenX (HFPO–DA Ammonium Salt): Oxidation with UV/Persulfate or Reduction with UV/Sulfite?

Bao¹,

Deng²,

Xiao³

et al. 2018

Environ. Sci. Technol.

127

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Hexafluoropropylene oxide dimer acid (HFPO-DA, ammonium salt with trade name: GenX) has been recently detected in river water worldwide. There are significant concerns about its persistence, and potential adverse effects to the biota. In this study, the degradability of GenX by typical advanced redox technologies (UV/persulfate and UV/sulfate) is investigated. Results demonstrate that <5% GenX is oxidized after 3 h in UV/persulfate system, which is much lower than ∼27% for PFOA. In comparison, GenX can be readily degraded and defluorinated by hydrated electron (e) generated by UV/sulfite system. Specifically, GenX is not detectable after 2 h, and >90% of fluoride ion is recovered 6 h later. This is attributed to the accumulation and subsequent degradation of CFCFCOOH and CFCOOH, which are stable intermediates of GenX degradation. Mechanistic investigations suggest that the etheric bond in the molecule is a favorable attack point for the e. Such finding is corroborated by quantum chemical calculations. The side CF- at the α-carbon probably acts as an effective barrier that prevents GenX from being cleaved by SO• or OH• at its most sensible point (i.e. the carboxyl group). This study illustrates that reduction by UV/sulfite might be a promising technology to remove GenX from contaminated water.

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Natural killer T (NKT)–B-cell interactions promote prolonged antibody responses and long-term memory to pneumococcal capsular polysaccharides

Bai

Deng

Reboulet

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

108

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Innate-like natural killer T (NKT) cells critically enhance cell and humoral immunity against infections through recognition of conserved microbial lipid antigens presented by CD1d-expressing antigen-presenting cells, and provision of CD40L and cytokine signals. Whereas NKT cells efficiently licensed dendritic cells to prime potent effector and memory T cells, studies based on model antigens such as alphagalactosylceramide-nitrophenyl conjugates concluded that help to B cells was associated with NKT follicular helper differentiation, but limited to short-term responses without induction of memory. We revisited this surprising conclusion in the context of the extracellular encapsulated pathogen Streptococcus pneumoniae, where recognition of lipid and capsular polysaccharide antigens by NKT cells and B cells, respectively, provide critical host protection. Using liposomal nanoparticles displaying synthetic lipid and polysaccharide antigens to elicit pure and direct NKT-B-cell interactions in vivo, we observed intense and prolonged antibody responses with isotype switch, affinity maturation, and long-lasting B-cell memory, despite modest or absent NKT follicular helper differentiation. Furthermore, conditional ablation of Cd1d demonstrated a requirement for a two-step process involving first cognate interactions with dendritic cells, for NKT cell activation, and then with B cells, for induction of isotype switch and memory. Thus, NKT help to B cells represents both a major arm of antimicrobial defense and a promising target for B-cell vaccines.

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Sonochemistry: A Powerful Way of Enhancing the Efficiency of Carbohydrate Synthesis

2006

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Using sonication as a means of facilitating organic reactions in carbohydrate chemistry was explored under the conditions used for traditional organic synthesis. An array of representative reactions, including hydroxy group manipulation (acylation, protection/deprotection, acyl group migration), thioglycoside synthesis, azidoglycoside synthesis, 1,3-dipolar cycloaddition and reductive cleavage of benzylidene, commonly used in the synthesis of carbohydrate derivatives was examined. A series of glycosylation reactions that employ thioglycosides, glycosyl trichloroacetimidate, glycosyl bromide and glycosyl acetate as the glycosyl donors was also examined. Our results demonstrate that sonication can significantly shorten the reaction time, enhance the reactivity of reactant and lead to superior yield and excellent stereoselectivity. More importantly, a general protocol of glycosylation may finally be developed. Sonication is compatible to the conditions used for traditional organic synthesis. We believe that sonication can also be applied to other areas of synthetic processes.

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T cells control the generation of nanomolar-affinity anti-glycan antibodies

Polonskaya¹,

Deng²,

Sarkar³

et al. 2017

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Vaccines targeting glycan structures at the surface of pathogenic microbes must overcome the inherent T cell-independent nature of immune responses against glycans. Carbohydrate conjugate vaccines achieve this by coupling bacterial polysaccharides to a carrier protein that recruits heterologous CD4 T cells to help B cell maturation. Yet they most often produce low- to medium-affinity immune responses of limited duration in immunologically fit individuals and disappointing results in the elderly and immunocompromised patients. Here, we hypothesized that these limitations result from suboptimal T cell help. To produce the next generation of more efficacious conjugate vaccines, we have explored a synthetic design aimed at focusing both B cell and T cell recognition to a single short glycan displayed at the surface of a virus-like particle. We tested and established the proof of concept of this approach for 2 serotypes of Streptococcus pneumoniae. In both cases, these vaccines elicited serotype-specific, protective, and long-lasting IgG antibodies of nanomolar affinity against the target glycans in mice. We further identified a requirement for CD4 T cells in the anti-glycan antibody response. Our findings establish the design principles for improved glycan conjugate vaccines. We surmise that the same approach can be used for any microbial glycan of interest.

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Shenglou Deng

The Identification of the Endogenous Ligands of Natural Killer T Cells Reveals the Presence of Mammalian α-Linked Glycosylceramides

Degradation of PFOA Substitute: GenX (HFPO–DA Ammonium Salt): Oxidation with UV/Persulfate or Reduction with UV/Sulfite?

Natural killer T (NKT)–B-cell interactions promote prolonged antibody responses and long-term memory to pneumococcal capsular polysaccharides

Sonochemistry: A Powerful Way of Enhancing the Efficiency of Carbohydrate Synthesis

T cells control the generation of nanomolar-affinity anti-glycan antibodies

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