CD138 and APRIL regulate plasma cell survival, competition, and retention in the bone marrow niche
Rosa Park, Zachary Benet, Zhixin Jing, Jennifer M. Enright, David Fooksman
Abstract
Durable serological protection is maintained through the persistence of antigen-specific plasma cells (PCs), but key factors regulating the survival of nascent PCs remain unclear. Previously, we reported that bone marrow (BM) PCs partially organize into clusters that are enriched for long-lived PCs, suggesting that clusters are survival niches. Here, we report that acute blockade of a proliferation-inducing ligand (APRIL) and B cell activating factor (BAFF) using transmembrane activator and CAML interactor (TACI)-Fc rapidly disrupts clusters and mobilizes BM PCs. CD138, a surface co-receptor that is abundant on PCs and binds APRIL but not BAFF, regulates PC retention in the BM and adhesion and motility on fibronectin. Cell-intrinsic CD138 levels control competition for survival between nascent CD138 low PCs and mature CD138 high PCs, and enhanced survival of CD138 high PCs correlates with retention in clusters. Collectively, these results indicate that PC clusters are survival niches and that dynamic competition between new and pre-existing PCs regulates the survival of new PCs and the durability of antibody responses.