{Reference Type}: Journal Article
{Title}: A synergistic regulation works in matrix stiffness-driven invadopodia formation in HCC.
{Author}: Zhang X;Zhao Y;Li M;Wang M;Qian J;Wang Z;Wang Y;Wang F;Guo K;Gao D;Zhao Y;Chen R;Ren Z;Song H;Cui J;
{Journal}: Cancer Lett
{Volume}: 582
{Issue}: 0
{Year}: 2024 02 1
{Factor}: 9.756
{DOI}: 10.1016/j.canlet.2023.216597
{Abstract}: Growing evidence has suggested that increased matrix stiffness can significantly strengthen the malignant characteristics of hepatocellular carcinoma (HCC) cells. However, whether and how increased matrix stiffness regulates the formation of invadopodia in HCC cells remain largely unknown. In the study, we developed different experimental systems in vitro and in vivo to explore the effects of matrix stiffness on the formation of invadopodia and its relevant molecular mechanism. Our results demonstrated that increased matrix stiffness remarkably augmented the migration and invasion abilities of HCC cells, upregulated the expressions of invadopodia-associated genes and enhanced the number of invadopodia. Two regulatory pathways contribute to matrix stiffness-driven invadopodia formation together in HCC cells, including direct triggering invadopodia formation through activating integrin β1 or Piezo1/ FAK/Src/Arg/cortactin pathway, and indirect stimulating invadopodia formation through improving EGF production to activate EGFR/Src/Arg/cortactin pathway. Src was identified as the common hub molecule of two synergistic regulatory pathways. Simultaneously, activation of integrin β1/RhoA/ROCK1/MLC2 and Piezo1/Ca2+/MLCK/MLC2 pathways mediate matrix stiffness-reinforced cell migration. This study uncovers a new mechanism by which mechanosensory pathway and biochemical signal pathway synergistically regulate the formation of invadopodia in HCC cells.