[PDF][PDF] CD8+ T lymphocyte self-renewal during effector cell determination

WHW Lin, SA Nish, B Yen, YH Chen, WC Adams… - Cell reports, 2016 - cell.com
WHW Lin, SA Nish, B Yen, YH Chen, WC Adams, R Kratchmarov, NJ Rothman…
Cell reports, 2016cell.com
Selected CD8+ T cells must divide, produce differentiated effector cells, and self-renew,
often repeatedly. We now show that silencing expression of the transcription factor TCF1
marks loss of self-renewal by determined effector cells and that this requires cell division. In
acute infections, the first three CD8+ T cell divisions produce daughter cells with unequal
proliferative signaling but uniform maintenance of TCF1 expression. The more quiescent
initial daughter cells resemble canonical central memory cells. The more proliferative …
Summary
Selected CD8+ T cells must divide, produce differentiated effector cells, and self-renew, often repeatedly. We now show that silencing expression of the transcription factor TCF1 marks loss of self-renewal by determined effector cells and that this requires cell division. In acute infections, the first three CD8+ T cell divisions produce daughter cells with unequal proliferative signaling but uniform maintenance of TCF1 expression. The more quiescent initial daughter cells resemble canonical central memory cells. The more proliferative, effector-prone cells from initial divisions can subsequently undergo division-dependent production of a TCF1-negative effector daughter cell along with a self-renewing TCF1-positive daughter cell, the latter also contributing to the memory cell pool upon resolution of infection. Self-renewal in the face of effector cell determination may promote clonal amplification and memory cell formation in acute infections, sustain effector regeneration during persistent subclinical infections, and be rate limiting, but remediable, in chronic active infections and cancer.
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