Extracellular matrix stiffness modulates the mechanophenotypes and focal adhesions of colon cancer cells leading to their invasions via YAP1

Abstract

Distal metastasis is the main cause of clinical treatment failure in patients with colon cancer. It is now known that the invasion and metastasis of cancer cells is precisely regulated by chemical and physical factors in vivo. However, the role of extracellular matrix (ECM) stiffness in colon cancer cell (CCCs) invasion and metastasis remains unclear. Here, bioinformatical analysis suggested that a high expression level of yes associated protein 1 (YAP1) was significantly associated with metastasis and poor prognosis in colon cancer patients. We further investigated the effects of polyacrylamide hydrogels with different stiffnesses (3, 20, and 38 ​kPa), which were simulated as ECM, on the mechanophenotype (F-actin cytoskeleton organization, electrophoretic rate, membrane fluidity, and Young's modulus) of CCCs. The results showed that a stiffer ECM could induce the maturation of focal adhesions and formation of stress fibers in CCCs, regulate their mechanophenotypes, and promote cell motility. We also demonstrated that the expression levels of YAP1 and paxillin were positively correlated in patients with colon cancer. YAP1 knockdown reduces paxillin clustering and cell motility and alters the cellular mechanophenotypes of CCCs. This is of great significance for an in-depth understanding of the invasion and metastatic mechanisms of colon cancer and for the optimization of clinical therapy from the perspective of mechanobiology.