Single-cell analysis by mass cytometry reveals CD19 CAR T cell spatiotemporal plasticity in patients

The adaptive T cell immune response requires cellular plasticity to generate distinct subsets with diverse functional and migratory capacities. Studies of CAR T cells have primarily focused on a limited number of phenotypic markers in blood, representing an incomplete view of CAR T cell complexity. Here, we adapted mass cytometry to simultaneously analyze trafficking and functional proteins expression in CD19 CAR T cells across patients' tissues, including leukapheresis T cells, CAR product, CAR T cells in peripheral blood, bone marrow, and cerebrospinal fluid post infusion and correlate them with phenotypes. This approach revealed spatiotemporal plasticity of CAR T cells. Patients' CAR product revealed upregulation in many trafficking and activation molecules compared to leukapheresis T cells as baseline. Including statistically significant upregulation in CD4 and CD8 integrin-beta 7, CD4 granzyme B, and CD11a as well as CD8 CD25 and CD95. Moreover, patients' tissues showed spatiotemporal alteration in trafficking, activation, maturation, and exhaustion features, with a distinct signature in the central nervous system niche. Compared to peripheral blood samples, cerebrospinal fluid samples were statistically significant enriched in CD4 and CD8 trafficking and memory phenotype proteins integrin beta 7, CCR7, CXCR4, and CD8 CD69. Our data provide a potential framework to remodel CAR T cells and enhance immunotherapy efficacy.

Automated summary

This study used mass cytometry to analyze the trafficking and functional protein expression of CD19 CAR-T cells in different tissues and revealed the spatiotemporal plasticity of CAR-T cells. The results showed significant alterations in the characteristics of CAR-T cells in different tissues, especially in the central nervous system niche.