Heterogeneous signaling pathways are critical for the persistence of memory T cells in spleen and bone marrow

Persistence of memory T lymphocytes, in the apparent absence of antigen, is a hallmark of immune memory and key to adaptive immunity to recurrent infections. The signaling pathways ensuring survival and quiescence of the memory T cells are largely enigmatic. Here we show, by inhibition in vivo, that persistence of surface CD69+KLF2-tissue-resident memory T cells of murine bone marrow and spleen is blocked by antibodies to the integrins VLA-4 and LFA-1, connecting the memory T cells to VCAM1 and ICAM1 of stromal cells. Persistence requires the PI3K/AKT signaling pathway, since it is blocked by Wortmannin, and it involves PI3K-dependent survival genes. Surface CD69-KLF2+ memory T cells of the bone marrow are also dependent on integrin-mediated contact to stromal cells. Their persistence critically depends on the NF-kB pathway, their PI3K signaling pathway is not relevant. Blocking Jak1 and 3 of the interleukin-7 and -15 signaling pathways does affect memory T cells of the spleen, but not those of the bone marrow. Thus, tissue-resident KLF2+ and KLF2-memory T cells, and memory T cells of spleen and bone marrow, use different signaling pathways, adapting them to their respective tissues and reflecting an unexpected heterogeneity in the molecular mechanisms of persistence.