Spatial transcriptomics maps molecular and cellular requirements for CD4+T cell-dependent immunity to malaria
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Abstract
CD4 + T cells orchestrate adaptive immunity to circulating malaria parasites; yet cellular interactions and molecular mechanisms controlling Th1 and Tfh differentiation in the spleen remain to be fully defined in vivo . Here, using a murine model of CD4-dependent immunity, we tested if Slide-seqV2 , a spatial transcriptomic method with near single-cell resolution, could determine the locations of multiple CD4 + T cell subsets and potentially interacting cellular partners in the spleen during infection. Firstly, Slide-seqV2 readily mapped splenic cellular structure and microanatomical change during infection. Next, computational integration with scRNA-seq reference datasets of splenocytes, stromal cells, and specifically of polyclonal CD4 + T cells and B cells, mapped the relative locations of multiple cell-types within this dense tissue. scRNA-seq of B cells over time mapped emergence of germinal centre B cells, red pulp-located plasmablasts and atypical B cells, and uncovered a prolonged CD4 + T-cell-independent, follicular bystander B cell response marked by Sca-1 and Ly6C upregulation. scRNA-seq of activated, polyclonal CD4 + T cells revealed their similarity to our previous TCR transgenic models. Importantly, spatial analysis revealed polyclonal Th1 cells co-localised with CXCL9/10-producing monocytes in the red pulp, while polyclonal Tfh-like cells were located close to CXCL13-expressing B cell follicles, consistent with our previous CXCR3/CXCR5 competition model of Th1/Tfh bifurcation. CRISPR/Cas9 disruption of either or both CXCR3 and CXCR5 in naïve Plasmodium -specific CD4 + T cells had unexpectedly minor effects on Th1 differentiation in vivo . Instead, CXCR5 was essential for maximising clonal expansion, suggesting a role for splenic CXCL13 + cells in supporting CD4 + T cell proliferation in malaria. Thus, spatial transcriptomics at near single-cell resolution was feasible in densely packed secondary lymphoid tissue, providing multiple insights into mechanisms controlling splenic polyclonal CD4 + T cell and B cell differentiation during infection. Highlights Slide-seqV2 maps splenic microanatomy, including stromal and immune cell location. Bystander activation of all follicular B cells occurs in malaria, marked by Sca-1/Ly6C upregulation. Single naïve polyclonal CD4 + T cells differentiate mostly into Th1 and Tfh cells in malaria. Cell-cell colocalization analysis positions Th1 cells with monocytes in red pulp, and Tfh cells with Cxcl13 + B cell follicles. CXCR5, but not CXCR3, supports parasite-specific CD4 + T cell clonal expansion.
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