Aging is associated with accumulated T follicular helper cells with decreased metabolic function

Abstract

Abstract The aging immune system responds poorly to infection and vaccination, producing reduced numbers of germinal centers, low affinity antibody titers, and reduced B cell memory. Prolonged contacts between activated B cells and CD4+ T cells are crucial to germinal center formation and T follicular helper cell (Tfh) differentiation, but it is unclear how aging impacts the quality of this interaction. Peptide immunization confirmed that aged mice have less expansion of antigen-specific germinal center B cells and reduced antibody titers. Furthermore, aging was associated with decreased CD4+ T conventional cells and accumulated Tfh cells and regulatory T cells, even in naïve mice. Despite increased numbers, our results indicate that aged Tfh have decreased metabolic function, which may have repercussions on germinal center responses. To determine the contribution of cell-extrinsic influences on antigen-specific Tfh induction, we adoptively transferred young, antigen-specific B and CD4+ naïve T cells into aged hosts prior to peptide immunization, which resulted in reduced antigen-specific germinal center B cell and Tfh expansion and reduced antibody titers when compared to young hosts. The results from these experiments emphasize the importance of the lymphoid microenvironment in germinal center initiation and maintenance. We hypothesize that age-associated Tfh accumulation may impair antigen-specific Tfh induction and subsequent germinal center responses. Current studies use live-cell 2-photon microscopy to track the impact of age on lymphocyte motility and Tfh:B interactions, in order to determine the relative contributions of aged APCs, non-specific aged Tfh, and aged regulatory T cells to germinal center deficiency. Research supported by the Mayo Clinic Robert and Arlene Kogod Center on Aging Innovation Award UL1R002377