Cancer cell sedimentation in 3D cultures reveals active migration regulated by self-generated gradients and adhesion sites

Abstract

AbstractCell sedimentation in 3D hydrogel cultures refers to the vertical migration of cells towards the bottom of the space. To explain this poorly understood phenomenon, we conducted a multiscale experimental and mathematical examination of 3D cancer growth in triple negative breast cancer cells. Migration was examined in the presence and absence of Paclitaxel, in high and low adhesion environments and in the presence of fibroblasts. The observed behaviour was modeled by hypothesizing active migration due to self-generated chemotactic gradients. Our results confirmed this hypothesis, whereby migration was regulated by the MAPK and TGF-β pathways. The mathematical model enabled us to describe the experimental data in absence (normalized error< 40%) and presence of Paclitaxel (normalized error< 10%), suggesting inhibition of random motion and advection in the latter case. Inhibition of sedimentation in low adhesion and co-culture experiments further supported the conclusion that cells actively migrated downwards due to the presence of signals produced by cells already attached to the adhesive glass surface.