Aspirin blocks formation of metastatic intravascular niches by inhibiting platelet-derived COX-1/thromboxane A2
Serena Lucotti, Camilla Cerutti, Magali Soyer, Ana M. Gil-Bernabé, Ana L. Gomes, Philip D. Allen, Sean Smart, Bostjan Markelc, Karla Watson, Paul C. Armstrong, Jane A. Mitchell, Timothy D. Warner, Anne J. Ridley, Ruth J. Muschel
Serena Lucotti, Camilla Cerutti, Magali Soyer, Ana M. Gil-Bernabé, Ana L. Gomes, Philip D. Allen, Sean Smart, Bostjan Markelc, Karla Watson, Paul C. Armstrong, Jane A. Mitchell, Timothy D. Warner, Anne J. Ridley, Ruth J. Muschel
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Research Article Oncology

Aspirin blocks formation of metastatic intravascular niches by inhibiting platelet-derived COX-1/thromboxane A2

Abstract

Because metastasis is associated with the majority of cancer-related deaths, its prevention is a clinical aspiration. Prostanoids are a large family of bioactive lipids derived from the activity of cyclooxygenase-1 (COX-1) and COX-2. Aspirin impairs the biosynthesis of all prostanoids through the irreversible inhibition of both COX isoforms. Long-term administration of aspirin leads to reduced distant metastases in murine models and clinical trials, but the COX isoform, downstream prostanoid, and cell compartment responsible for this effect are yet to be determined. Here, we have shown that aspirin dramatically reduced lung metastasis through inhibition of COX-1 while the cancer cells remained intravascular and that inhibition of platelet COX-1 alone was sufficient to impair metastasis. Thromboxane A2 (TXA2) was the prostanoid product of COX-1 responsible for this antimetastatic effect. Inhibition of the COX-1/TXA2 pathway in platelets decreased aggregation of platelets on tumor cells, endothelial activation, tumor cell adhesion to the endothelium, and recruitment of metastasis-promoting monocytes/macrophages, and diminished the formation of a premetastatic niche. Thus, platelet-derived TXA2 orchestrates the generation of a favorable intravascular metastatic niche that promotes tumor cell seeding and identifies COX-1/TXA2 signaling as a target for the prevention of metastasis.

Authors

Serena Lucotti, Camilla Cerutti, Magali Soyer, Ana M. Gil-Bernabé, Ana L. Gomes, Philip D. Allen, Sean Smart, Bostjan Markelc, Karla Watson, Paul C. Armstrong, Jane A. Mitchell, Timothy D. Warner, Anne J. Ridley, Ruth J. Muschel

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Figure 9

COX-1/TXA2 inhibition impairs the establishment of a permissive intravascular niche.

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COX-1/TXA2 inhibition impairs the establishment of a permissive intravas...
(A) MIP (median filter) of 3D confocal stacks (×20, top row) and surface reconstruction (bottom row) of tumor cells (B16F10-CMAC, white), platelets (Plts-PKH26, magenta), and Cx3CR1+ monocytes/macrophages (GFP, green) in whole lungs of Cx3cr1gfp/+ mice at 8 hours after injection of tumor cells and platelets. Scale bars: 50 μm. (B) Volume of monocyte/macrophage clusters (n = 3). (C) Correlation plot of the volume of monocyte/macrophage clusters versus the volume of clots within the cluster (n = 143). (D) MIP (median filter) of 3D confocal stacks of lung sections from Cx3cr1gfp/+ mice treated with vehicle or drugs and injected with tumor cells (B16F10-CMRA, white). Activated endothelial cells were immunofluorescently labeled with an anti–E-selectin (green) or anti–VCAM-1 (magenta) antibody. Scale bar: 50 μm. (E and F) Number of tumor cells within an 80-μm radius from E-selectin– or VCAM-1–expressing vessels (E) (32) and fluorescence intensity of E-selectin or VCAM-1 (F) (n = 3). Data are represented as mean + SD. One-way ANOVA with Tukey’s multiple-comparisons test. *0.01 < P ≤ 0.05; **0.001 < P ≤ 0.01; ***P ≤ 0.001.