PUBLICATION
Endothelial calcium firing mediates the extravasation of metastatic tumor cells
- Authors
- Peralta, M., Dupas, A., Larnicol, A., Lefebvre, O., Goswami, R., Stemmelen, T., Molitor, A., Carapito, R., Girardo, S., Osmani, N., Goetz, J.G.
- ID
- ZDB-PUB-250204-4
- Date
- 2024
- Source
- iScience 28: 111690111690 (Journal)
- Registered Authors
- Keywords
- Functional aspects of cell biology, cancer, cell biology
- MeSH Terms
- none
- PubMed
- 39898056 Full text @ iScience
Citation
Peralta, M., Dupas, A., Larnicol, A., Lefebvre, O., Goswami, R., Stemmelen, T., Molitor, A., Carapito, R., Girardo, S., Osmani, N., Goetz, J.G. (2024) Endothelial calcium firing mediates the extravasation of metastatic tumor cells. iScience. 28:111690111690.
Abstract
Metastatic dissemination is driven by genetic, biochemical, and biophysical cues that favor the distant colonization of organs and the formation of life-threatening secondary tumors. We have previously demonstrated that endothelial cells (ECs) actively remodel during extravasation by enwrapping arrested tumor cells (TCs) and extruding them from the vascular lumen while maintaining perfusion. In this work, we dissect the cellular and molecular mechanisms driving endothelial remodeling. Using high-resolution intravital imaging in zebrafish embryos, we demonstrate that the actomyosin network of ECs controls tissue remodeling and subsequent TC extravasation. Furthermore, we uncovered that this cytoskeletal remodeling is driven by altered endothelial-calcium (Ca2+) signaling caused by arrested TCs. Accordingly, we demonstrated that the inhibition of voltage-dependent calcium L-type channels impairs extravasation. Lastly, we identified P2X4, TRP, and Piezo1 mechano-gated Ca2+ channels as key mediators of the process. These results further highlight the central role of endothelial remodeling during the extravasation of TCs and open avenues for successful therapeutic targeting.
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