Platelet integrin α6β1 controls lung metastasis through direct binding to cancer cell–derived ADAM9
Elmina Mammadova-Bach, Paola Zigrino, Camille Brucker, Catherine Bourdon, Monique Freund, Adèle De Arcangelis, Scott I. Abrams, Gertaud Orend, Christian Gachet, Pierre Henri Mangin
Elmina Mammadova-Bach, Paola Zigrino, Camille Brucker, Catherine Bourdon, Monique Freund, Adèle De Arcangelis, Scott I. Abrams, Gertaud Orend, Christian Gachet, Pierre Henri Mangin
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Research Article Hematology Oncology

Platelet integrin α6β1 controls lung metastasis through direct binding to cancer cell–derived ADAM9

Abstract

Metastatic dissemination of cancer cells, which accounts for 90% of cancer mortality, is the ultimate hallmark of malignancy. Growing evidence suggests that blood platelets have a predominant role in tumor metastasis; however, the molecular mechanisms involved remain elusive. Here, we demonstrate that genetic deficiency of integrin α6β1 on platelets markedly decreases experimental and spontaneous lung metastasis. In vitro and in vivo assays reveal that human and mouse platelet α6β1 supports platelet adhesion to various types of cancer cells. Using a knockdown approach, we identified ADAM9 as the major counter receptor of α6β1 on both human and mouse tumor cells. Static and flow-based adhesion assays of platelets binding to DC-9, a recombinant protein covering the disintegrin-cysteine domain of ADAM9, demonstrated that this receptor directly binds to platelet α6β1. In vivo studies showed that the interplay between platelet α6β1 and tumor cell–expressed ADAM9 promotes efficient lung metastasis. The integrin α6β1–dependent platelet-tumor cell interaction induces platelet activation and favors the extravasation process of tumor cells. Finally, we demonstrate that a pharmacological approach targeting α6β1 efficiently impairs tumor metastasis through a platelet-dependent mechanism. Our study reveals a mechanism by which platelets promote tumor metastasis and suggests that integrin α6β1 represents a promising target for antimetastatic therapies.

Authors

Elmina Mammadova-Bach, Paola Zigrino, Camille Brucker, Catherine Bourdon, Monique Freund, Adèle De Arcangelis, Scott I. Abrams, Gertaud Orend, Christian Gachet, Pierre Henri Mangin

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Figure 3

ADAM9 expressed on tumor cells supports integrin α6β1–dependent platelet adhesion through its disintegrin-cysteine rich domain.

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ADAM9 expressed on tumor cells supports integrin α6β1–dependent platelet...
(A and B) Downregulation of ADAM9 expression in AT-3 and MC38 cells with two distinct ADAM9 shRNAs. (A) ADAM9 mRNA expression was determined by qRT-PCR and normalized with mRNA level of GAPDH. **P < 0.01, Mann-Whitney test. Each point represents a separate experiment. (B) Representative immunofluorescence images of AT-3 and MC38 cells knocked down or not for ADAM9, with an anti-ADAM9 antibody (IF: in red). Nuclei were stained with DAPI (blue). Scale bar: 50 μm. (C and D) Quantification of the fluorescent signal corresponding to the amount of PF4-Cre-α6+/+ and PF4-Cre-α6–/– mouse platelets adhered to (C) AT-3 and (D) MC38 control or ADAM9-silenced (sh1 and sh2) cancer cells. ***P < 0.001, Mann-Whitney test. Each point represents an individual mouse. (E and G) Representative (E) immunofluorescence and (G) differential interference contrast microscopy images of PF4-Cre-α6+/+ and PF4-Cre-α6–/– mouse platelets adhering to recombinant DC-9 ADAM9 under (E) static and (G) flow conditions, respectively. Scale bar: 20 μm. (E) Washed PF4-Cre-α6+/+, PF4-Cre-α6–/–, PF4-Cre, and PF4-Cre-β1–/– mouse platelets were allowed to adhere to glass coverslips coated with 500 μg/ml DC-9 ADAM9. After 30 minutes, adherent cells were fixed, stained with the RAM.1 antibody (RAM.1), and observed by epifluorescent microscopy. (G) Hirudinated PF4-Cre-α6+/+, PF4-Cre-α6–/–, PF4-Cre, and PF4-Cre-β1–/– mouse whole blood was perfused through DC-9 (500 μg/ml) coated microcapillaries at 300 s–1 and monitored for 3 minutes. PF4-Cre-α6+/+, PF4-Cre-α6–/–, PF4-Cre, and PF4-Cre-β1–/– mouse platelet adhesion was observed by real-time video microscopy. (F and H) Quantification of the number of adherent platelets under (F) static and (H) flow condition. ***P < 0.001, Mann-Whitney test. Each point represents an individual mouse. Box-and-whisker plots were used to graphically represent the median (line within box), upper and lower quartile (bounds of box), and maximum and minimum values (bars).