Biomechanics and biophysics of cancer cells

Biomechanics and biophysics of cancer cells

The past decade has seen substantial growth in research into how changes in the biomechanical and biophysical properties of cells and subcellular structures influence, and are influenced by, the onset and progression of human diseases. This paper presents an overview of the rapidly expanding, nascen...

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Bibliographic Details
Published in:Acta materialia Vol. 55; no. 12; pp. 3989 - 4014
Main Author: Suresh, Subra
Format: Journal Article
Language:English
Published: Oxford Elsevier Ltd 01-07-2007
Elsevier Science
Subjects:
Applied sciences
Assaying
Biomechanics
Biophysics
Cancer
Cytoadherence
Cytoskeleton
Diseases
Drugs
Exact sciences and technology
Formability
Mechanobiology
Mechanotransduction
Metals. Metallurgy
Signaling pathways
Transformations
Signaling pathways
Cytoskeleton
Mechanotransduction
Cytoadherence
Mechanobiology
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Summary:The past decade has seen substantial growth in research into how changes in the biomechanical and biophysical properties of cells and subcellular structures influence, and are influenced by, the onset and progression of human diseases. This paper presents an overview of the rapidly expanding, nascent field of research that deals with the biomechanics and biophysics of cancer cells. The review begins with some key observations on the biology of cancer cells and on the role of actin microfilaments, intermediate filaments and microtubule biopolymer cytoskeletal components in influencing cell mechanics, locomotion, differentiation and neoplastic transformation. In order to set the scene for mechanistic discussions of the connections among alterations to subcellular structures, attendant changes in cell deformability, cytoadherence, migration, invasion and tumor metastasis, a survey is presented of the various quantitative mechanical and physical assays to extract the elastic and viscoelastic deformability of cancer cells. Results available in the literature on cell mechanics for different types of cancer are then reviewed. Representative case studies are presented next to illustrate how chemically induced cytoskeletal changes, biomechanical responses and signals from the intracellular regions act in concert with the chemomechanical environment of the extracellular matrix and the molecular tumorigenic signaling pathways to effect malignant transformations. Results are presented to illustrate how changes to cytoskeletal architecture induced by cancer drugs and chemotherapy regimens can significantly influence cell mechanics and disease state. It is reasoned through experimental evidence that greater understanding of the mechanics of cancer cell deformability and its interactions with the extracellular physical, chemical and biological environments offers enormous potential for significant new developments in disease diagnostics, prophylactics, therapeutics and drug efficacy assays.
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ISSN:1359-6454
1873-2453
DOI:10.1016/j.actamat.2007.04.022