VCAM1 confers innate immune tolerance on haematopoietic and leukaemic stem cells

造血 免疫学 干细胞 生物 免疫系统 先天免疫系统 细胞生物学
作者
Sandra Pinho,Qiaozhi Wei,Maria Maryanovich,Dachuan Zhang,Juan Carlos Balandrán,Halley Pierce,Fumio Nakahara,Anna Di Staulo,Boris Bartholdy,Jianing Xu,Daniel K. Borger,Amit Verma,Paul S. Frenette
出处
期刊:Nature Cell Biology [Nature Portfolio]
卷期号:24 (3): 290-298 被引量:30
标识
DOI:10.1038/s41556-022-00849-4
摘要

Haematopoietic stem cells (HSCs) home to the bone marrow via, in part, interactions with vascular cell adhesion molecule-1 (VCAM1)1–3. Once in the bone marrow, HSCs are vetted by perivascular phagocytes to ensure their self-integrity. Here we show that VCAM1 is also expressed on healthy HSCs and upregulated on leukaemic stem cells (LSCs), where it serves as a quality-control checkpoint for entry into bone marrow by providing ‘don’t-eat-me’ stamping in the context of major histocompatibility complex class-I (MHC-I) presentation. Although haplotype-mismatched HSCs can engraft, Vcam1 deletion, in the setting of haplotype mismatch, leads to impaired haematopoietic recovery due to HSC clearance by mononuclear phagocytes. Mechanistically, VCAM1 ‘don’t-eat-me’ activity is regulated by β2-microglobulin MHC presentation on HSCs and paired Ig-like receptor-B (PIR-B) on phagocytes. VCAM1 is also used by cancer cells to escape immune detection as its expression is upregulated in multiple cancers, including acute myeloid leukaemia (AML), where high expression associates with poor prognosis. In AML, VCAM1 promotes disease progression, whereas VCAM1 inhibition or deletion reduces leukaemia burden and extends survival. These results suggest that VCAM1 engagement regulates a critical immune-checkpoint gate in the bone marrow, and offers an alternative strategy to eliminate cancer cells via modulation of the innate immune tolerance. Pinho et al. show that VCAM1 and MHC-I cooperate to provide a ‘don’t-eat-me’ signal that prevents haematopoietic stem cells clearance by mononuclear phagocytes, and also that VCAM1 can be hijacked by cancer cells to escape innate immune surveillance.
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