Exploitation of Elevated Extracellular ATP to Specifically Direct Antibody to Tumor Microenvironment

Futa Mimoto,Etsuko Fujii,Yumiko Azuma,Eriko Tanaka,Takayuki Kamikawa,Takeshi Baba,Kunihiro Hattori,Tessai Yamamoto,Takeru Nambu,Kanako Tatsumi,Masami Hasegawa,Yasushi Tomii,Kazuhisa Ozeki,Kosuke Aso,Miho Ayabe,Kenji Nakagawa,Junichi Kikuta,Shojiro Kadono,Hiroki Kawauchi,Yuki Suzuki,Shun Shimizu,Takahiro Ishiguro,Masaru Ishii,Shigero Tanba,Tatsuya Kibayashi,Kenta Haraya,Masayuki Matsushita,Tomoyuki Igawa,Hitoshi Katada,Masaki Kamimura,Miho Nagayasu,Naoaki Murao,Kazuhiro Ohara,Akira Hayasaka,Takuya Sakashita,Atsuhiko Kato,Mika Kamata-Sakurai,Terushige Muraoka,Hiroaki Susumu,Mika Endô

doi:10.1016/j.celrep.2020.108542

Futa Mimoto, Etsuko Fujii + Show 38 more

Open Access

https://doi.org/10.1016/j.celrep.2020.108542

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Journal: Cell Reports	Publication Date: Dec 1, 2020
Citations: 40	License type: cc-by-nc-nd

Affiliation: Chugai Pharma (United States), Osaka University

Abstract

The extracellular adenosine triphosphate (ATP) concentration is highly elevated in the tumor microenvironment (TME) and remains tightly regulated in normal tissues. Using phage display technology, we establish a method to identify an antibody that can bind to an antigen only in the presence of ATP. Crystallography analysis reveals that ATP bound in between the antibody-antigen interface serves as a switch for antigen binding. In a transgenic mouse model overexpressing the antigen systemically, the ATP switch antibody binds to the antigen in tumors with minimal binding in normal tissues and plasma and inhibits tumor growth. Thus, we demonstrate that elevated extracellular ATP concentration can be exploited to specifically target the TME, giving therapeutic antibodies the ability to overcome on-target off-tumor toxicity.

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