Shiteng Duan scite author profile

Sialic acid–binding immunoglobulin-type lectins (Siglecs) are expressed on the majority of white blood cells of the immune system and play critical roles in immune cell signaling. Through recognition of sialic acid–containing glycans as ligands, they help the immune system distinguish between self and nonself. Because of their restricted cell type expression and roles as checkpoints in immune cell responses in human diseases such as cancer, asthma, allergy, neurodegeneration, and autoimmune diseases they have gained attention as targets for therapeutic interventions. In this review we describe the Siglec family, its roles in regulation of immune cell signaling, current efforts to define its roles in disease processes, and approaches to target Siglecs for treatment of human disease.

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CD33 recruitment inhibits IgE-mediated anaphylaxis and desensitizes mast cells to allergen

Duan¹,

Koziol‐White²,

Jester³

et al. 2019

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Repression of phagocytosis by human CD33 is not conserved with mouse CD33

et al. 2019

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CD33 is an immunomodulatory receptor linked to Alzheimer’s disease (AD) susceptibility via regulation of phagocytosis in microglia. Divergent features between human CD33 (hCD33) and murine CD33 (mCD33) include a unique transmembrane lysine in mCD33 and cytoplasmic tyrosine in hCD33. The functional consequences of these differences in restraining phagocytosis remains poorly understood. Using a new αmCD33 monoclonal antibody, we show that mCD33 is expressed at high levels on neutrophils and low levels on microglia. Notably, cell surface expression of mCD33 is entirely dependent on Dap12 due to an interaction with the transmembrane lysine in mCD33. In RAW264.7 cultured macrophages, BV-2 cultured microglia, primary neonatal and adult microglia, uptake of cargo — including aggregated Aβ1–42 — is not altered upon genetic ablation of mCD33. Alternatively, deletion of hCD33 in monocytic cell lines increased cargo uptake. Moreover, transgenic mice expressing hCD33 in the microglial cell lineage showed repressed cargo uptake in primary microglia. Therefore, mCD33 and hCD33 have divergent roles in regulating phagocytosis, highlighting the importance of studying hCD33 in AD susceptibility.

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Structure, Biochemistry, and Inhibition of Essential 4′-Phosphopantetheinyl Transferases from Two Species of Mycobacteria

et al. 2014

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4′-Phosphopantetheinyl transferases (PPTase) post-translationally modify carrier proteins with a phosphopantetheine moiety, an essential reaction in all three domains of life. In the bacterial genus Mycobacteria, the Sfp-type PPTase activates pathways necessary for the biosynthesis of cell wall components and small molecule virulence factors. We solved the X-ray crystal structures and biochemically characterized the Sfp-type PPTases from two of the most prevalent Mycobacterial pathogens, PptT of M. tuberculosis and MuPPT of M. ulcerans. Structural analyses reveal significant differences in cofactor binding and active site composition when compared to previously characterized Sfp-type PPTases. Functional analyses including the efficacy of Sfp-type PPTase-specific inhibitors also suggest that the Mycobacterial Sfp-type PPTases can serve as therapeutic targets against Mycobacterial infections.

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Nanoparticles Displaying Allergen and Siglec-8 Ligands Suppress IgE-FcεRI–Mediated Anaphylaxis and Desensitize Mast Cells to Subsequent Antigen Challenge

Duan

Arlian

Nycholat

et al. 2021

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Siglec-8 is an inhibitory receptor expressed on eosinophils and mast cells. In this study, we took advantage of a novel Siglec-8 transgenic mouse model to assess the impact of modulating IgE-dependent mast cell degranulation and anaphylaxis using a liposomal platform to display an allergen with or without a synthetic glycan ligand for Siglec-8 (Sig8L). The hypothesis is that recruitment of Siglec-8 to the IgE–FcεRI receptor complex will inhibit allergen-induced mast cell degranulation. Codisplay of both allergen and Sig8L on liposomes profoundly suppresses IgE-mediated degranulation of mouse bone marrow–derived mast cells or rat basophilic leukemia cells expressing Siglec-8. In contrast, liposomes displaying only Sig8L have no significant suppression of antigenic liposome-induced degranulation, demonstrating that the inhibitory activity by Siglec-8 occurs only when Ag and Sig8L are on the same particle. In mouse models of anaphylaxis, display of Sig8L on antigenic liposomes completely suppresses IgE-mediated anaphylaxis in transgenic mice with mast cells expressing Siglec-8 but has no protection in mice that do not express Siglec-8. Furthermore, mice protected from anaphylaxis remain desensitized to subsequent allergen challenge because of loss of Ag-specific IgE from the cell surface and accelerated clearance of IgE from the blood. Thus, although expression of human Siglec-8 on murine mast cells does not by itself modulate IgE-FcεRI–mediated cell activation, the enforced recruitment of Siglec-8 to the FcεRI receptor by Sig8L-decorated antigenic liposomes results in inhibition of degranulation and desensitization to subsequent Ag exposure.

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A Sulfonamide Sialoside Analogue for Targeting Siglec-8 and -F on Immune Cells

et al. 2019

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The Siglec family of cell surface receptors have emerged as attractive targets for cell-directed therapies due to their restricted expression on immune cells, endocytic properties, and ability to modulate receptor signaling. Human Siglec-8, for instance, has been identified as a therapeutic target for the treatment of eosinophil and mast cell disorders. A promising strategy to target Siglecs involves the use of liposomal nanoparticles with a multivalent display of Siglec ligands. A key challenge for this approach is the identification of a high affinity ligand for the target Siglec. Here, we report the development of a ligand of Siglec-8 and its closest murine functional orthologue Siglec-F that is capable of targeting liposomes to cells expressing Siglec-8 or -F. A glycan microarray library of synthetic 9-N-sulfonyl sialoside analogues was screened to identify potential lead compounds. The best ligand, 9-N-(2-naphthyl-sulfonyl)-Neu5Acα2–3-[6-O-sulfo]-Galβ1–4GlcNAc (6′-O-sulfo NSANeu5Ac) combined the lead 2-naphthyl sulfonyl C-9 substituent with the preferred sulfated scaffold. The ligand 6′-O-sulfo NSANeu5Ac was conjugated to lipids for display on liposomes to evaluate targeted delivery to cells. Targeted liposomes showed strong in vitro binding/uptake and selectivity to cells expressing Siglec-8 or -F and, when administered to mice, exhibit in vivo targeting to Siglec-F+ eosinophils.

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Exploiting CD22 on antigen-specific B cells to prevent allergy to the major peanut allergen Ara h 2

Orgel

Duan

Wright

et al. 2017

Journal of Allergy and Clinical Immunology

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Human CD22 Inhibits Murine B Cell Receptor Activation in a Human CD22 Transgenic Mouse Model

Bednar

Shanina

Ballet

et al. 2017

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CD22, a sialic-acid binding immunoglobulin type-lectin (Siglec) family member, is an inhibitory co-receptor of the B-cell receptor (BCR) with established roles in health and disease. The restricted expression pattern of CD22 on B-cells and most B-cell lymphomas has made CD22 a therapeutic target for B-cell-mediated diseases. Models to better understand how in vivo targeting of CD22 translates to human disease are needed. Here, we report development of a transgenic mouse expressing human CD22 (hCD22) in B-cells and assess its ability to functionally substitute for murine CD22 (mCD22) for regulation of BCR signaling, antibody responses, homing, and tolerance. Expression of hCD22 on transgenic murine B-cells is comparable to expression on human primary B-cells, and co-localizes with mCD22 on the cell surface. Murine B-cells expressing only hCD22 have identical calcium (Ca2+) flux responses in response to anti-IgM as mCD22-expressing WT B-cells. Furthermore, hCD22 transgenic mice on a mCD22−/− background have restored levels of marginal zone B-cells and antibody responses compared to deficiencies observed in CD22−/− mice. Consistent with these observations, hCD22 transgenic mice develop normal humoral responses in a peanut allergy oral sensitization model. Homing of B-cells to Peyer’s patches (PP) was partially rescued by expression of hCD22 compared to CD22−/− B-cells, although not to WT levels. Notably, Siglec-engaging antigenic liposomes (STALs) formulated with a hCD22 ligand were shown to prevent B-cell activation, increase cell death, and induce tolerance in vivo. This hCD22 transgenic mouse will be a valuable model for investigating the function of hCD22 and pre-clinical studies targeting hCD22.

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Shiteng Duan

Siglecs as Immune Cell Checkpoints in Disease

CD33 recruitment inhibits IgE-mediated anaphylaxis and desensitizes mast cells to allergen

Repression of phagocytosis by human CD33 is not conserved with mouse CD33

Structure, Biochemistry, and Inhibition of Essential 4′-Phosphopantetheinyl Transferases from Two Species of Mycobacteria

Nanoparticles Displaying Allergen and Siglec-8 Ligands Suppress IgE-FcεRI–Mediated Anaphylaxis and Desensitize Mast Cells to Subsequent Antigen Challenge

A Sulfonamide Sialoside Analogue for Targeting Siglec-8 and -F on Immune Cells

Exploiting CD22 on antigen-specific B cells to prevent allergy to the major peanut allergen Ara h 2

Human CD22 Inhibits Murine B Cell Receptor Activation in a Human CD22 Transgenic Mouse Model

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