Knockdown of T-bet expression in Mart-127-35-specific T-cell-receptor-engineered human CD4+ CD25- and CD8+ T cells attenuates effector function.
Jha, Sidharth S. 1; Chakraborty, Nitya G. 1; Singh, Prashant 1; Mukherji, Bijay 1; Dorsky, David I. 1
[Article]
Immunology.
145(1):124-135, May 2015.
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: Gene transfer to create tumour epitope-specific cytolytic T cells for adoptive immunotherapy of cancer remains an area of active inquiry. When the Mart-127-35-specific DMF5 T-cell receptor (TCR) is transferred into peripheral human CD4 T cells, the reprogrammed cells exhibit a T helper type 1 (Th1) phenotype with significant multifactorial effector capabilities. The T-bet transcription factor plays an important role in determination of the Th1 differentiation pathway. To gain a deeper understanding of how T-bet controls the outcome of human T-cell reprogramming by gene transfer, we developed a system for examining the effects of short hairpin RNA-mediated T-bet gene knockdown in sorted cell populations uniformly expressing the knockdown construct. In this system, using activated peripheral human CD4 CD25- and CD8 T cells, T-bet knockdown led to attenuation of the interferon-[gamma] response to both antigen-specific and non-specific TCR stimulation. The interleukin-2 (IL-2) antigen-specific response was not attenuated by T-bet knockdown. Also, in TCR-reprogrammed CD8 cells, the cytolytic effector response was attenuated by T-bet knockdown. T-bet knockdown did not cause redirection into a Th2 differentiation pathway, and no increased IL-4, IL-10, or IL-17 response was detected in this system. These results indicate that T-bet expression is required for maintenance of the CD4 CD25- and CD8 effector phenotypes in TCR-reprogrammed human T cells. They also suggest that the activation protocol necessary for transduction with retrovectors and lentivectors may commit the reprogrammed cells to the Th1 phenotype, which cannot be altered by T-bet knockdown but that there is, nevertheless, a continuous requirement of T-bet expression for interferon-[gamma] gene activation.
(C) 2015 John Wiley & Sons Ltd