Platelet cancer cell interplay as a new therapeutic target
Kenise Morris, Brian Schnoor, Anne‐Laure Papa
Abstract
The interaction between circulating tumor cells and platelets is a key factor in cancer metastasis. These interactions, driven by a variety of receptors, support circulating tumor cells by protecting them from immune detection, cushioning them from shear stress, and promoting their arrest at the endothelium. Additionally, platelets have been shown to accumulate in the primary tumors, promoting tumor growth and angiogenesis by releasing growth factors. Furthermore, tumor cells can interact with platelets by inducing aggregation, which further protects cancer cells. However, the platelet cancer cell interplay also offers new approaches to develop targeted therapies. The accumulation of platelets in tumors has successfully been leveraged to deliver chemotherapeutics and imaging agents. Likewise, these platelet-based interactions have been utilized to target cancer cells in circulation. Although these current systems have limitations including drug loading and storage, leveraging platelet-cancer cell interactions to effectively target circulating tumor cells and tumors shows great promise for future cancer treatments.