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Publication : CD4(+) T cell memory is impaired by species-specific cytotoxic differentiation, but not by TCF-1 loss.

First Author  Hofland T Year  2023
Journal  Front Immunol Volume  14
Pages  1168125 PubMed ID  37122720
Mgi Jnum  J:335765 Mgi Id  MGI:7470145
Doi  10.3389/fimmu.2023.1168125 Citation  Hofland T, et al. (2023) CD4(+) T cell memory is impaired by species-specific cytotoxic differentiation, but not by TCF-1 loss. Front Immunol 14:1168125
abstractText  CD4(+) T cells are typically considered as 'helper' or 'regulatory' populations that support and orchestrate the responses of other lymphocytes. However, they can also develop potent granzyme (Gzm)-mediated cytotoxic activity and CD4(+) cytotoxic T cells (CTLs) have been amply documented both in humans and in mice, particularly in the context of human chronic infection and cancer. Despite the established description of CD4(+) CTLs, as well as of the critical cytotoxic activity they exert against MHC class II-expressing targets, their developmental and memory maintenance requirements remain elusive. This is at least in part owing to the lack of a murine experimental system where CD4(+) CTLs are stably induced. Here, we show that viral and bacterial vectors encoding the same epitope induce distinct CD4(+) CTL responses in challenged mice, all of which are nevertheless transient in nature and lack recall properties. Consistent with prior reports, CD4(+) CTL differentiation is accompanied by loss of TCF-1 expression, a transcription factor considered essential for memory T cell survival. Using genetic ablation of Tcf7, which encodes TCF-1, at the time of CD4(+) T cell activation, we further show that, contrary to observations in CD8(+) T cells, continued expression of TCF-1 is not required for CD4(+) T cell memory survival. Whilst Tcf7-deficient CD4(+) T cells persisted normally following retroviral infection, the CD4(+) CTL subset still declined, precluding conclusive determination of the requirement for TCF-1 for murine CD4(+) CTL survival. Using xenotransplantation of human CD4(+) T cells into murine recipients, we demonstrate that human CD4(+) CTLs develop and persist in the same experimental conditions where murine CD4(+) CTLs fail to persist. These observations uncover a species-specific defect in murine CD4(+) CTL persistence with implications for their use as a model system.
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