Osteoblasts remotely supply lung tumors with cancer-promoting SiglecFhighneutrophils | Zendy

Camilla Engblom | Zendy; Christina Pfirschke | Zendy; Rapolas Žilionis | Zendy; Janaina Da Silva Martins | Zendy; Stijn A. Bos | Zendy; Gabriel Courties | Zendy; Steffen Rickelt | Zendy; Nicolas Sévère | Zendy; Ninib Baryawno | Zendy; Julien Faget | Zendy; Virginia Savova | Zendy; David Zemmour | Zendy; Jaclyn Kline | Zendy; Marie Siwicki | Zendy; Christopher Garris | Zendy; Ferdinando Pucci | Zendy; Hsin-Wei Liao | Zendy; Yi-Jang Lin | Zendy; Andita Newton | Zendy; Omar Yaghi | Zendy; Yoshiko Iwamoto | Zendy; Benoit Tricot | Zendy; Gregory R. Wojtkiewicz | Zendy; Matthias Nahrendorf | Zendy; Virna CortezRetamozo | Zendy; Etienne Meylan | Zendy; Richard O. Hynes | Zendy; Marie B. Demay | Zendy; Allon M. Klein | Zendy; Miriam A. Bredella | Zendy; David T. Scadden | Zendy; Ralph Weissleder | Zendy; Mikaël J. Pittet | Zendy

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Osteoblasts remotely supply lung tumors with cancer-promoting SiglecF^highneutrophils

Author(s) -

Camilla Engblom,

Christina Pfirschke,

Rapolas Žilionis,

Janaina Da Silva Martins,

Stijn A. Bos,

Gabriel Courties,

Steffen Rickelt,

Nicolas Sévère,

Ninib Baryawno,

Julien Faget,

Virginia Savova,

David Zemmour,

Jaclyn Kline,

Marie Siwicki,

Christopher Garris,

Ferdinando Pucci,

Hsin-Wei Liao,

Yi-Jang Lin,

Andita Newton,

Omar Yaghi,

Yoshiko Iwamoto,

Benoit Tricot,

Gregory R. Wojtkiewicz,

Matthias Nahrendorf,

Virna CortezRetamozo,

Etienne Meylan,

Richard O. Hynes,

Marie B. Demay,

Allon M. Klein,

Miriam A. Bredella,

David T. Scadden,

Ralph Weissleder,

Mikaël J. Pittet

Publication year - 2017

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aal5081

Subject(s) - carcinogenesis , adenocarcinoma , cancer research , tumor microenvironment , lung cancer , lung , cancer , osteoblast , medicine , pathology , chemistry , biology , tumor cells , in vitro , biochemistry

Bone marrow-derived myeloid cells can accumulate within tumors and foster cancer outgrowth. Local immune-neoplastic interactions have been intensively investigated, but the contribution of the systemic host environment to tumor growth remains poorly understood. Here, we show in mice and cancer patients ( n = 70) that lung adenocarcinomas increase bone stromal activity in the absence of bone metastasis. Animal studies reveal that the cancer-induced bone phenotype involves bone-resident osteocalcin-expressing (Ocn + ) osteoblastic cells. These cells promote cancer by remotely supplying a distinct subset of tumor-infiltrating SiglecF high neutrophils, which exhibit cancer-promoting properties. Experimentally reducing Ocn + cell numbers suppresses the neutrophil response and lung tumor outgrowth. These observations posit osteoblasts as remote regulators of lung cancer and identify SiglecF high neutrophils as myeloid cell effectors of the osteoblast-driven protumoral response.

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