Memory T Cell-driven Differentiation of Naive Cells Impairs Adoptive Immunotherapy

Overview

Journal J Clin Invest

Specialty General Medicine

Date 2015 Dec 15

PMID 26657860

Citations 147

Authors

Christopher A Klebanoff

Christopher D Scott

Anthony J Leonardi

Tori N Yamamoto

Anthony C Cruz

Claudia Ouyang

Madhu Ramaswamy

Rahul Roychoudhuri

Yun Ji

Robert L Eil

Madhusudhanan Sukumar

Joseph G Crompton

Douglas C Palmer

Zachary A Borman

David Clever

Stacy K Thomas

Shashankkumar Patel

Zhiya Yu

Pawel Muranski

Hui Liu

Ena Wang

Francesco M Marincola

Alena Gros

Luca Gattinoni

Steven A Rosenberg

Richard M Siegel

Nicholas P Restifo

Affiliations

Soon will be listed here.

Abstract

Adoptive cell transfer (ACT) of purified naive, stem cell memory, and central memory T cell subsets results in superior persistence and antitumor immunity compared with ACT of populations containing more-differentiated effector memory and effector T cells. Despite a clear advantage of the less-differentiated populations, the majority of ACT trials utilize unfractionated T cell subsets. Here, we have challenged the notion that the mere presence of less-differentiated T cells in starting populations used to generate therapeutic T cells is sufficient to convey their desirable attributes. Using both mouse and human cells, we identified a T cell-T cell interaction whereby antigen-experienced subsets directly promote the phenotypic, functional, and metabolic differentiation of naive T cells. This process led to the loss of less-differentiated T cell subsets and resulted in impaired cellular persistence and tumor regression in mouse models following ACT. The T memory-induced conversion of naive T cells was mediated by a nonapoptotic Fas signal, resulting in Akt-driven cellular differentiation. Thus, induction of Fas signaling enhanced T cell differentiation and impaired antitumor immunity, while Fas signaling blockade preserved the antitumor efficacy of naive cells within mixed populations. These findings reveal that T cell subsets can synchronize their differentiation state in a process similar to quorum sensing in unicellular organisms and suggest that disruption of this quorum-like behavior among T cells has potential to enhance T cell-based immunotherapies.

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