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Article Abstract
Tumor development necessitates immune escape through different mechanisms. To counteract these effects, the development of therapies targeting immune checkpoints (ICP) has generated interest as they have produced lasting objective responses in patients with advanced metastatic tumors. However, many tumors do not respond to inhibitors of ICPs, necessitating to further study the underlying mechanisms of exhaustion. VEGFa, a proangiogenic molecule secreted by tumors, was described to participate to tumor immune exhaustion by increasing ICPs, justifying in part the use of an anti-VEGFa mAb, bevacizumab, in patients. However, recent studies from our group have demonstrated that tumors can escape anti-VEGFa therapy through the secretion of soluble CD146 (sCD146). In this study, we show that both VEGFa and sCD146 cooperate to create an immunosuppressive microenvironment by increasing the expression of ICPs. In addition, sCD146 favors protumoral M2-type macrophages and induces the secretion of proinflammatory cytokines. An anti-sCD146 mAb reverses these effects and displays additive effects with the anti-VEGFa antibody to eliminate tumors in a syngeneic murine model grafted with melanoma cells. Combining bevacizumab with mucizumab could thus be of major therapeutic interest to prevent immune escape in malignant melanoma and other CD146-positive tumors.
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| http://dx.doi.org/10.1158/1535-7163.MCT-24-0008 | DOI Listing |
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