CD33 recruitment inhibits IgE-mediated anaphylaxis and desensitizes mast cells to allergen
Shiteng Duan, … , Reynold A. Panettieri Jr., James C. Paulson
Shiteng Duan, … , Reynold A. Panettieri Jr., James C. Paulson
Published January 15, 2019
Citation Information: J Clin Invest. 2019;129(3):e125456. https://doi.org/10.1172/JCI125456.
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Research Article Immunology

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

Abstract

Allergen immunotherapy for patients with allergies begins with weekly escalating doses of allergen under medical supervision to monitor and treat IgE mast cell–mediated anaphylaxis. There is currently no treatment to safely desensitize mast cells to enable robust allergen immunotherapy with therapeutic levels of allergen. Here, we demonstrated that liposomal nanoparticles bearing an allergen and a high-affinity glycan ligand of the inhibitory receptor CD33 profoundly suppressed IgE-mediated activation of mast cells, prevented anaphylaxis in Tg mice with mast cells expressing human CD33, and desensitized mice to subsequent allergen challenge for several days. We showed that high levels of CD33 were consistently expressed on human skin mast cells and that the antigenic liposomes with CD33 ligand prevented IgE-mediated bronchoconstriction in slices of human lung. The results demonstrated the potential of exploiting CD33 to desensitize mast cells to provide a therapeutic window for administering allergen immunotherapy without triggering anaphylaxis.

Authors

Shiteng Duan, Cynthia J. Koziol-White, William F. Jester Jr., Scott A. Smith, Corwin M. Nycholat, Matthew S. Macauley, Reynold A. Panettieri Jr., James C. Paulson

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Figure 1

Display of CD33L on antigenic liposomes suppresses IgE-dependent degranulation of LAD2 cells.

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Display of CD33L on antigenic liposomes suppresses IgE-dependent degranu...
(A) Schematic representation of an antigenic liposome (TNP-LP, left) or an antigenic liposome displaying human CD33 ligands (TNP-LP-CD33L, right). (B) Antibody staining of various Siglecs (Sig-) on LAD2 cells analyzed by flow cytometry. (C) Flow cytometric analysis of binding of fluorescent liposomes with or without CD33L (20 μM) to LAD2 cells pretreated with isotype control or anti-CD33 (clone WM53). (D) Calcium flux of LAD2 cells induced by addition (arrow) of TNP-LP or TNP-LP-CD33 (2.5 μM) or PBS (1 μl). Graph shows quantification of the AUC of calcium flux induced by 2.5 μM TNP-LP or TNP-LP-CD33L. Results were combined from 2 independent experiments. (E) Degranulation induced by TNP-LP or TNP-LP-CD33L as measured by the percentage of β-hex release (n = 3 per condition; values are plotted as the mean ± SD). (F) Degranulation induced by TNP-LP (30 μM), TNP-LP-CD33L (30 μM), or a mixture of TNP-LP and LP-CD33L (30 μM each). (G) Degranulation induced by TNP-LP or TNP-LP-CD33L (30 μM) in the presence of LP-CD33L (10 μM). Control cells received buffer only. (H) Degranulation induced by TNP-LP or TNP-LP-CD33L (30 μM) in the presence of isotype or anti-CD33 (clone WM53, 1 μg/ml). (I) Degranulation induced by Ah2-LP or Ah2-LP-CD33L (30 μM), with final Ah2 at 750 ng/ml using LAD2 cells sensitized with atopic plasma reactive to peanut (PlasmaLab). (J) Degranulation induced by OVA-LP or OVA-LP-CD33L (30 μM), with the final OVA dose at 1.5 μg/ml using LAD2 cells sensitized with human anti–OVA-IgE. Results in EJ are representative of 3 independent experiments. ***P < 0.001 and ****P < 0.0001, by 2-tailed Student’s t test (D and E) and 1-way ANOVA followed by Tukey’s test (FJ). α, anti; Max, maximum.