Targeting FROUNT with disulfiram suppresses macrophage accumulation and its tumor-promoting properties

Yuya Terashima; Etsuko Toda; Meiji Itakura; Mikiya Otsuji; Sosuke Yoshinaga; Kazuhiro Okumura; Francis H. W. Shand; Yoshihiro Komohara; Mitsuhiro Takeda; Kana Kokubo; Ming-Chen Chen; Sana Yokoi; Hirofumi Rokutan; Yutaka Kofuku; Koji Ohnishi; Miki Ohira; Toshihiko Iizasa; Hirofumi Nakano; Takayoshi Okabe; Hirotatsu Kojima; Akira Shimizu; Shiro Kanegasaki; Ming-Rong Zhang; Ichio Shimada; Hiroki Nagase; Hiroaki Terasawa; Kouji Matsushima

doi:10.1038/s41467-020-14338-5

Targeting FROUNT with disulfiram suppresses macrophage accumulation and its tumor-promoting properties

Yuya Terashima(Tokyo University of Science), Etsuko Toda(Tokyo University of Science), Meiji Itakura(Chiba Cancer Center), Mikiya Otsuji(Tokyo Teishin Hospital), Sosuke Yoshinaga(Kumamoto University), Kazuhiro Okumura(Chiba Cancer Center), Francis H. W. Shand(The University of Tokyo), Yoshihiro Komohara(Kumamoto University), Mitsuhiro Takeda(Kumamoto University), Kana Kokubo(Tokyo University of Science), Ming-Chen Chen(Tokyo University of Science), Sana Yokoi(Chiba Cancer Center), Hirofumi Rokutan(The University of Tokyo), Yutaka Kofuku(The University of Tokyo), Koji Ohnishi(Kumamoto University), Miki Ohira(Chiba Cancer Center), Toshihiko Iizasa(Chiba Cancer Center), Hirofumi Nakano(The University of Tokyo), Takayoshi Okabe(The University of Tokyo), Hirotatsu Kojima(The University of Tokyo), Akira Shimizu(Nippon Medical School), Shiro Kanegasaki(National Center for Global Health and Medicine), Ming-Rong Zhang(National Institutes for Quantum Science and Technology), Ichio Shimada(The University of Tokyo), Hiroki Nagase(Chiba Cancer Center), Hiroaki Terasawa(Kumamoto University), Kouji Matsushima(Tokyo University of Science)

Nature Communications

January 30, 2020

10.1038/s41467-020-14338-5

Cited by 105Open Access

Full Text

Abstract

Tumor-associated macrophages affect tumor progression and resistance to immune checkpoint therapy. Here, we identify the chemokine signal regulator FROUNT as a target to control tumor-associated macrophages. The low level FROUNT expression in patients with cancer correlates with better clinical outcomes. Frount-deficiency markedly reduces tumor progression and decreases macrophage tumor-promoting activity. FROUNT is highly expressed in macrophages, and its myeloid-specific deletion impairs tumor growth. Further, the anti-alcoholism drug disulfiram (DSF) acts as a potent inhibitor of FROUNT. DSF interferes with FROUNT-chemokine receptor interactions via direct binding to a specific site of the chemokine receptor-binding domain of FROUNT, leading to inhibition of macrophage responses. DSF monotherapy reduces tumor progression and decreases macrophage tumor-promoting activity, as seen in the case of Frount-deficiency. Moreover, co-treatment with DSF and an immune checkpoint antibody synergistically inhibits tumor growth. Thus, inhibition of FROUNT by DSF represents a promising strategy for macrophage-targeted cancer therapy.

Related Papers

No related papers found

Powered by citation graph analysis