Sialylated CD43 forms a glyco-immune barrier that restrains antileukemic immunity

Jooho Chung; Mounica Vallurupalli; Sarah Noel; Gail Schor; Sofia Mrowka; Ilario Scapozza; Zelalem Demere; Sachin V. Kammula; Margaret Hu; Sarah Kim; YuhJong Liu; Celeste Nobrega; Jonathan Perera; Ewa Wrona; Collins Cheruiyot; Yunkang Lin; David Wu; Maria Saberi; Aidan Cruickshank; Elliot C. Woods; Cun Lan Chuong; Filippo Birocchi; Ashwin V. Kammula; Omar I. Avila; Nelson H. Knudsen; Mustafa Kocak; John G. Doench; Dean J. Procter; Lindsey Thornton; Andrew M. Brunner; Eric Winer; D. J. Deangelo; Jacqueline S. Garcia; Richard M. Stone; Russell W. Jenkins; Marcela V. Maus; Timothy A. Graubert; Kathleen B. Yates; T. R. Golub; Robert T. Manguso

doi:10.1126/science.ady5196

Sialylated CD43 forms a glyco-immune barrier that restrains antileukemic immunity

Jooho Chung(Broad Institute), Mounica Vallurupalli(Broad Institute), Sarah Noel(Broad Institute), Gail Schor(Broad Institute), Sofia Mrowka(Broad Institute), Ilario Scapozza(Broad Institute), Zelalem Demere(Broad Institute), Sachin V. Kammula(Broad Institute), Margaret Hu(Broad Institute), Sarah Kim(Broad Institute), YuhJong Liu(Broad Institute), Celeste Nobrega(Broad Institute), Jonathan Perera(Broad Institute), Ewa Wrona(Broad Institute), Collins Cheruiyot(Broad Institute), Yunkang Lin(Broad Institute), David Wu(Broad Institute), Maria Saberi(Broad Institute), Aidan Cruickshank(Broad Institute), Elliot C. Woods(Broad Institute), Cun Lan Chuong(Broad Institute), Filippo Birocchi(Center for Cancer Research), Ashwin V. Kammula(Broad Institute), Omar I. Avila(Broad Institute), Nelson H. Knudsen(Broad Institute), Mustafa Kocak(Broad Institute), John G. Doench(Broad Institute), Dean J. Procter(Broad Institute), Lindsey Thornton(Dana-Farber Cancer Institute), Andrew M. Brunner(Center for Cancer Research), Eric Winer(Dana-Farber Cancer Institute), D. J. Deangelo(Dana-Farber Cancer Institute), Jacqueline S. Garcia(Dana-Farber Cancer Institute), Richard M. Stone(Dana-Farber Cancer Institute), Russell W. Jenkins(Broad Institute), Marcela V. Maus(Center for Cancer Research), Timothy A. Graubert(Center for Cancer Research), Kathleen B. Yates(Broad Institute), T. R. Golub(Broad Institute), Robert T. Manguso(Broad Institute)

Science

April 9, 2026

10.1126/science.ady5196

Cited by 3

Abstract

Macrophages exert antitumorigenic activity through phagocytosis, but phagocytosis-enhancing therapeutics have not improved acute myeloid leukemia (AML) outcomes. To identify phagocytosis regulators, we performed CRISPR knockout screens in human AML cells cocultured with human macrophages. We found that the "don't eat me" signal CD47 inhibited mouse but not human macrophage phagocytosis. However, O-linked glycosylation and sialylation were strong negative regulators of phagocytosis. In AML, the cell surface mucin-like glycoprotein CD43 was the major effector of these pathways. Inhibition of phagocytosis by CD43 was dependent on the length of its ectodomain and independent of the macrophage sialic acid receptors SIGLEC-1, SIGLEC-7, and SIGLEC-9. The inhibitory effects of CD43 extended beyond human macrophages to natural killer and T cells. Thus, CD43 forms a glyco-immune barrier that restrains both innate and adaptive antileukemic immunity.

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