PD-1 <sup>+</sup> regulatory T cells amplified by PD-1 blockade promote hyperprogression of cancer

Takahiro Kamada(Nagoya University), Yosuke Togashi, Christopher Tay(The University of Osaka), Danbee Ha(The University of Osaka), Akinori Sasaki(National Cancer Center Hospital East), Yoshiaki Nakamura(National Cancer Center Hospital East), Eiichi Sato(Tokyo Medical University), Shota Fukuoka(National Cancer Center Hospital East), Yasuko Tada, Atsushi Tanaka(The University of Osaka), Hiromasa Morikawa(The University of Osaka), Akihito Kawazoe(National Cancer Center Hospital East), Takahiro Kinoshita(National Cancer Center Hospital East), Kohei Shitara(National Cancer Center Hospital East), Shimon Sakaguchi(The University of Osaka), Hiroyoshi Nishikawa(Nagoya University)
Proceedings of the National Academy of Sciences
April 26, 2019
10.1073/pnas.1822001116
Cited by 1,021Open Access
Full Text

Abstract

Significance PD-1 blockade is a cancer immunotherapy effective in various types of cancer. However, we observed rapid cancer progression, called hyperprogressive disease (HPD), in ∼10% of advanced gastric cancer patients treated with anti–PD-1 monoclonal antibody. Tumors of HPD patients possessed highly proliferating FoxP3 + Treg cells after treatment, contrasting with their reduction in non-HPD tumors. In vitro PD-1 blockade augmented proliferation and suppressive activity of human Treg cells. Likewise, murine Treg cells that were deficient in PD-1 signaling were more proliferative and immunosuppressive. Thus, HPD may occur when PD-1 blockade activates and expands tumor-infiltrating PD-1 + Treg cells to overwhelm tumor-reactive PD-1 + effector T cells. Depletion of the former may therefore help treat and prevent HPD.

Related Papers

No related papers found

Powered by citation graph analysis