1.Influences of Cell-ECM Adhesion on Migration of Tumor Cells Regulated by ECM Stiffness: A Model Study
Ying ZHANG ; Yulan WANG ; Kaiqun WANG ; Yan WEI ; Di HUANG ; Weiyi CHEN ; Yanhu SHAN
Journal of Medical Biomechanics 2021;36(4):E604-E611
Objective To study the influence of cell-extracellular matrix (ECM) adhesion on migration of tumor cells regulated by ECM stiffness. Methods The cellular Potts model (CPM) was established to simulate tumor cell growth and cellular immune feedback system. The effects from mechanical behavior of cells on cell-ECM adhesion were observed, and the migration of tumor cells under different ECM was analyzed. Results The ECM stiffness could influence the migration rate of tumor cells. The change of ECM stiffness regulated the adhesion force between cells and ECM, and the change of adhesion force would influence the migration rate of cells. Conclusions The migration and distribution patterns of cells are closely related to the adhesion and stiffness of ECM. The increase in ECM stiffness can effectively promote the migration rate of tumor cells, and the further increase in ECM stiffness inhibits the migration of tumor cells. These findings may further reveal dynamic changes of ECM, adhesion and mechanical performance of tumor cell migration.
2.Effects of Intercellular Adhesion of Tumor on Immune Escape
Dali ZAN ; Xiangbin DU ; Kaiqun WANG ; Jingjing DU ; Yan WEI ; Di HUANG ; Weiyi CHEN
Journal of Medical Biomechanics 2019;34(2):E145-E152
Objective To study the effect of intercellular adhesion of tumor cells on immune response of human body. Methods A tumor growth-cellular immune feedback model was developed based on cellular Potts model (CPM) to simulate the progression of tumor cells and the cellular immune feedback system, and the influence of adhesion between tumor cells on the immune system was analyzed. Results Under the condition of tumor intercellular adhesion with normal intensity, tumor cells could escape when the immune system was weak and be eliminated when the immune system was strong. Under the condition of tumor intercellular adhesion with low intensity, tumor cells could escape when the immune system was weak, while exhibited behavior of oscillation and could not be eliminated when the immune system was strong. Conclusions Higher adhesion between tumor cells inhibited escape of tumor cells from the immune system, while lower adhesion between tumor cells could effectively help the tumor escape killing from the immune system. When the tumor was extremely spread, the immune system could not completely eliminate tumor cells.