[PDF][PDF] Intravascular survival and extravasation of tumor cells
B Strilic, S Offermanns - Cancer cell, 2017 - cell.com
B Strilic, S Offermanns
Cancer cell, 2017•cell.comMost metastasizing tumor cells reach distant sites by entering the circulatory system. Within
the bloodstream, they are exposed to severe stress due to loss of adhesion to extracellular
matrix, hemodynamic shear forces, and attacks of the immune system, and only a few cells
manage to extravasate and to form metastases. We review the current understanding of the
cellular and molecular mechanisms that allow tumor cells to survive in the intravascular
environment and that mediate and promote tumor cell extravasation. As these processes are …
the bloodstream, they are exposed to severe stress due to loss of adhesion to extracellular
matrix, hemodynamic shear forces, and attacks of the immune system, and only a few cells
manage to extravasate and to form metastases. We review the current understanding of the
cellular and molecular mechanisms that allow tumor cells to survive in the intravascular
environment and that mediate and promote tumor cell extravasation. As these processes are …
Most metastasizing tumor cells reach distant sites by entering the circulatory system. Within the bloodstream, they are exposed to severe stress due to loss of adhesion to extracellular matrix, hemodynamic shear forces, and attacks of the immune system, and only a few cells manage to extravasate and to form metastases. We review the current understanding of the cellular and molecular mechanisms that allow tumor cells to survive in the intravascular environment and that mediate and promote tumor cell extravasation. As these processes are critical for the metastatic spread of tumor cells, we discuss implications for potential therapeutic approaches and future research.
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