Add to ORKGDuring metastasis, cancer cells are exposed to potentially destructive hemodynamic forces including fluid shear stress (FSS) while en route to distant sites. However, prior work indicates that cancer cells are more resistant to brief pulses of high-level FSS in vitro relative to non-transformed epithelial cells. Herein, we identify a mechano-adaptive mechanism of FSS resistance in cancer cells. Our findings demonstrate that cancer cells activate RhoA in response to FSS, which protects them from FSS-induced plasma membrane damage. We show that cancer cells freshly isolated from mouse and human tumors are resistant to FSS, that formin and myosin II activity protects circulating tumor cells (CTCs) from destruction, and that short-ter...
Metastasis is responsible for at least 66% of cancer-related deaths, yet it remains a poorly underst...
Biochemical and physical factors affect the rolling of tumor cells across the blood vessel. The bioc...
<div><p>Ovarian cancer cells are exposed to physical stress in the peritoneal cavity during both tum...
During metastasis, cancer cells are exposed to potentially destructive hemodynamic forces inclu...
<div><p>During metastasis, cancer cells enter the circulation in order to gain access to distant tis...
During metastasis, cancer cells enter the circulation in order to gain access to distant tissues, bu...
The ability of a cancer cell to relocate to a distal location and subsequently form tumours largely ...
During cancer metastasis, circulating tumor cells constantly experience hemodynamic shear stress in ...
Venkat Keshav Chivukula,1 Benjamin L Krog,1,2 Jones T Nauseef,2 Michael D Henry,2 Sarah C Vigmostad1...
Circulating tumor cells (CTCs) are the primary targets of cancer treatment as they cause distal meta...
Metastasis has been observed to be an inefficient process, but a consensus has not been reached as t...
Cancer cells are shed into the blood stream and are exposed to hemodynamic shear stress during metas...
Abstract Cancer cells in secondary tumors are found to form metastases more efficiently as compared ...
Mechanical stress is known to fuel several hallmarks of cancer, ranging from genome instability to u...
Metastasis is responsible for at least 66% of cancer-related deaths, yet it remains a poorly underst...
Biochemical and physical factors affect the rolling of tumor cells across the blood vessel. The bioc...
<div><p>Ovarian cancer cells are exposed to physical stress in the peritoneal cavity during both tum...
During metastasis, cancer cells are exposed to potentially destructive hemodynamic forces inclu...
<div><p>During metastasis, cancer cells enter the circulation in order to gain access to distant tis...
During metastasis, cancer cells enter the circulation in order to gain access to distant tissues, bu...
The ability of a cancer cell to relocate to a distal location and subsequently form tumours largely ...
During cancer metastasis, circulating tumor cells constantly experience hemodynamic shear stress in ...
Venkat Keshav Chivukula,1 Benjamin L Krog,1,2 Jones T Nauseef,2 Michael D Henry,2 Sarah C Vigmostad1...
Circulating tumor cells (CTCs) are the primary targets of cancer treatment as they cause distal meta...
Metastasis has been observed to be an inefficient process, but a consensus has not been reached as t...
Cancer cells are shed into the blood stream and are exposed to hemodynamic shear stress during metas...
Abstract Cancer cells in secondary tumors are found to form metastases more efficiently as compared ...
Mechanical stress is known to fuel several hallmarks of cancer, ranging from genome instability to u...
Metastasis is responsible for at least 66% of cancer-related deaths, yet it remains a poorly underst...
Biochemical and physical factors affect the rolling of tumor cells across the blood vessel. The bioc...
<div><p>Ovarian cancer cells are exposed to physical stress in the peritoneal cavity during both tum...