Open AccessDNA-Containing Exosomes Derived from Cancer Cells Treated with Topotecan Activate a STING-Dependent Pathway and Reinforce Antitumor Immunity
Author(s) -
Yuichi Kitai,
Takumi Kawasaki,
Takuya Sueyoshi,
Kouji Kobiyama,
Ken J. Ishii,
Jian Zou,
Shizuo Akira,
Tadashi Matsuda,
Taro Kawai
Publication year - 2017
Publication title -
the journal of immunology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.737
H-Index - 372
eISSN - 1550-6606
pISSN - 0022-1767
DOI - 10.4049/jimmunol.1601694
Subject(s) - sting , immune system , microvesicles , innate immune system , cancer research , cancer cell , topoisomerase , inflammation , topotecan , cd8 , biology , acquired immune system , immunity , immunology , cancer , dna , microrna , gene , biochemistry , genetics , chemotherapy , engineering , aerospace engineering
Danger-associated molecular patterns derived from damaged or dying cells elicit inflammation and potentiate antitumor immune responses. In this article, we show that treatment of breast cancer cells with the antitumor agent topotecan (TPT), an inhibitor of topoisomerase I, induces danger-associated molecular pattern secretion that triggers dendritic cell (DC) activation and cytokine production. TPT administration inhibits tumor growth in tumor-bearing mice, which is accompanied by infiltration of activated DCs and CD8 + T cells. These effects are abrogated in mice lacking STING, an essential molecule in cytosolic DNA-mediated innate immune responses. Furthermore, TPT-treated cancer cells release exosomes that contain DNA that activate DCs via STING signaling. These findings suggest that a STING-dependent pathway drives antitumor immunity by responding to tumor cell-derived DNA.
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