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Physical Forces in Glioblastoma Migration: A Systematic Review

Audrey Grossen, Kyle Smith, Nangorgo Jean Oumar Coulibaly, Benjamin S. Arbuckle, Alexander Evans, Stefan Wilhelm, Kenneth L. Jones, Ian F. Dunn, Rheal A. Towner, Dee Wu, Young‐tae Kim, James Battiste

2022International Journal of Molecular Sciences25 citationsDOIOpen Access PDF

Abstract

The invasive capabilities of glioblastoma (GBM) define the cancer's aggressiveness, treatment resistance, and overall mortality. The tumor microenvironment influences the molecular behavior of cells, both epigenetically and genetically. Current forces being studied include properties of the extracellular matrix (ECM), such as stiffness and "sensing" capabilities. There is currently limited data on the physical forces in GBM-both relating to how they influence their environment and how their environment influences them. This review outlines the advances that have been made in the field. It is our hope that further investigation of the physical forces involved in GBM will highlight new therapeutic options and increase patient survival. A search of the PubMed database was conducted through to 23 March 2022 with the following search terms: (glioblastoma) AND (physical forces OR pressure OR shear forces OR compression OR tension OR torsion) AND (migration OR invasion). Our review yielded 11 external/applied/mechanical forces and 2 tumor microenvironment (TME) forces that affect the ability of GBM to locally migrate and invade. Both external forces and forces within the tumor microenvironment have been implicated in GBM migration, invasion, and treatment resistance. We endorse further research in this area to target the physical forces affecting the migration and invasion of GBM.

Topics & Concepts

GlioblastomaExtracellular matrixTumor microenvironmentBrain cancerCancer researchMedicineNeuroscienceCancerBiologyCell biologyTumor cellsInternal medicineCellular Mechanics and Interactions3D Printing in Biomedical ResearchNanoparticle-Based Drug Delivery
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