Siglec-G on B cells restrains the germinal center response by controlling T cell help during positive selection

The germinal center (GC) reaction requires tight regulation of B cell and T follicular helper (Tfh) cell interactions to ensure B cell expansion and antibody affinity maturation, while preventing oncogenesis. However, regulatory mechanisms fine-tuning B-T cell interactions within the GC to prevent aberrant activation and proliferation remain incompletely understood. Here, we identify Siglec-G, the mouse ortholog of human Siglec-10, as an immune checkpoint that restrains the GC by dampening B-T cell interactions. Selective and temporal ablation of Siglec-G on B cells after immunization triggers GC hyperplasia and enhanced plasma cell and antibody output. While Siglec-G is dispensable in B cell receptor (BCR)-mediated processes, it acts as an intrinsic inhibitory receptor of B-T cell interactions in the GC, ultimately limiting Myc and mTORC activation within positively selected GC B cells. Trans interactions of Siglec-G and its glycan ligands on Tfh likely contribute in fine-tuning the strength of bidirectional signaling following contact between GC B cells and Tfh cells. This interaction is further reinforced by glycan remodeling that occurs in the GC, resulting in concurrent decreased in glycan ligands on GC B cells and increased in glycan ligands on Tfh. This augmented binding of Siglec-G/10 on Tfh is mainly due to the upregulation of 2-6 linked sialic acid ligands. Moreover, APEX2-based proximity labeling revealed several candidate Siglec-G/10 binding partners on T cells, including BTLA, CD6, and Slamf6, which are known negative regulators of Tfh cell activation. Taken together, our findings identified that Siglec-G acts as a GC checkpoint receptor, restricting B cell proliferation by tuning T cell help following B-T cell interactions.