Durable antibody immunity depends on long-lived plasma cells (LLPCs) that primarily reside in the bone marrow (BM). However, due to LLPC rarity, it has not been possible to define their phenotypes or determine their heterogeneity. By single-cell mRNA sequencing, cytometry and a genetic pulse–chase mouse model, we show that IgG and IgM LLPCs display an EpCAM^hiCXCR3^– phenotype, whereas IgA LLPCs are Ly6A^hiTigit^–. While IgG and IgA LLPCs are mainly contributed by somatically hypermutated cells following immunization or infection, cells with innate properties and public antibodies are found in IgA and IgM LLPC compartments. Particularly, IgM LLPCs are highly enriched with public clones shared among different individual animals, differentiated in a T cell-independent manner and have affinity for self-antigens and microbial-derived antigens. Taken together, our work reveals different routes toward LLPC development and paves the way for deeper understanding of cellular and molecular underpinnings of long-term antibody immunity.

Durable antibody-mediated responses require long-lived plasma cells; however, these cells are difficult to identify. Hai Qi and colleagues now phenotypically identify these cells and show their heterogeneity.