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Directed invasion of cancer cell spheroids inside 3D collagen matrices oriented by microfluidic flow in experiment and simulation

Florian Geiger, Lukas G. Schnitzler, Manuel S. Brugger, Christoph Westerhausen, Hanna Engelke

2022PLoS ONE11 citationsDOIOpen Access PDF

Abstract

Invasion is strongly influenced by the mechanical properties of the extracellular matrix. Here, we use microfluidics to align fibers of a collagen matrix and study the influence of fiber orientation on invasion from a cancer cell spheroid. The microfluidic setup allows for highly oriented collagen fibers of tangential and radial orientation with respect to the spheroid, which can be described by finite element simulations. In invasion experiments, we observe a strong bias of invasion towards radial as compared to tangential fiber orientation. Simulations of the invasive behavior with a Brownian diffusion model suggest complete blockage of migration perpendicularly to fibers allowing for migration exclusively along fibers. This slows invasion toward areas with tangentially oriented fibers down, but does not prevent it.

Topics & Concepts

SpheroidMicrofluidicsExtracellular matrixFiberBiophysicsMaterials scienceOrientation (vector space)Matrix (chemical analysis)PerpendicularBrownian motionChemistryNanotechnologyBiologyPhysicsComposite materialGeometryIn vitroBiochemistryQuantum mechanicsMathematicsCellular Mechanics and Interactions3D Printing in Biomedical ResearchCancer Cells and Metastasis
Directed invasion of cancer cell spheroids inside 3D collagen matrices oriented by microfluidic flow in experiment and simulation | Litcius