Intercellular communication between different cell types in solid tumors contributes to tumor growth and metastatic dissemination. The secretome of cancer-associated fibroblasts (CAFs) plays major roles in these processes. Using human mammary CAFs, we showed that CAFs with a myofibroblast phenotype released extracellular vesicles that transferred proteins to endothelial cells (ECs) that affected their interaction with immune cells. Mass spectrometry-based proteomics identified proteins transferred from CAFs to ECs, which included plasma membrane receptors. Using THY1 as an example of a transferred plasma membrane-bound protein, we showed that CAF-derived proteins increased the adhesion of a monocyte cell line to ECs. CAFs produced high amounts of matrix-bound EVs, which were the primary vehicles of protein transfer. Hence, our work paves the way for future studies that investigate how CAF-derived matrix-bound EVs influence tumor pathology by regulating the function of neighboring cancer, stromal, and immune cells.
Cancer-associated fibroblasts produce matrix-bound vesicles that influence endothelial cell function / Santi, Alice; Kay, Emily J.; Neilson, Lisa J.; McGarry, Lynn; Lilla, Sergio; Mullin, Margaret; Paul, Nikki R.; Fercoq, Frédéric; Koulouras, Grigorios; Rodriguez Blanco, Giovanny; Athineos, Dimitris; Mason, Susan; Hughes, Mark; Thomson, Gemma; Kieffer, Yann; Nixon, Colin; Blyth, Karen; Mechta-Grigoriou, Fatima; Carlin, Leo M.; Zanivan, Sara. - In: SCIENCE SIGNALING. - ISSN 1937-9145. - ELETTRONICO. - 17:(2024), pp. 0-0. [10.1126/scisignal.ade0580]
Cancer-associated fibroblasts produce matrix-bound vesicles that influence endothelial cell function
Santi, AliceInvestigation
;
2024
Abstract
Intercellular communication between different cell types in solid tumors contributes to tumor growth and metastatic dissemination. The secretome of cancer-associated fibroblasts (CAFs) plays major roles in these processes. Using human mammary CAFs, we showed that CAFs with a myofibroblast phenotype released extracellular vesicles that transferred proteins to endothelial cells (ECs) that affected their interaction with immune cells. Mass spectrometry-based proteomics identified proteins transferred from CAFs to ECs, which included plasma membrane receptors. Using THY1 as an example of a transferred plasma membrane-bound protein, we showed that CAF-derived proteins increased the adhesion of a monocyte cell line to ECs. CAFs produced high amounts of matrix-bound EVs, which were the primary vehicles of protein transfer. Hence, our work paves the way for future studies that investigate how CAF-derived matrix-bound EVs influence tumor pathology by regulating the function of neighboring cancer, stromal, and immune cells.
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