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Literature DB >> 33947815

Hydraulic and electric control of cell spheroids.

Charlie Duclut¹, Jacques Prost^2,3, Frank Jülicher^4,5,6.

Abstract

We use a theoretical approach to examine the effect of a radial fluid flow or electric current on the growth and homeostasis of a cell spheroid. Such conditions may be generated by a drain of micrometric diameter. To perform this analysis, we describe the tissue as a continuum. We include active mechanical, electric, and hydraulic components in the tissue material properties. We consider a spherical geometry and study the effect of the drain on the dynamics of the cell aggregate. We show that a steady fluid flow or electric current imposed by the drain could be able to significantly change the spheroid long-time state. In particular, our work suggests that a growing spheroid can systematically be driven to a shrinking state if an appropriate external field is applied. Order-of-magnitude estimates suggest that such fields are of the order of the indigenous ones. Similarities and differences with the case of tumors and embryo development are briefly discussed.

Entities: Chemical

Keywords: continuum theory of tissues; electrohydraulics; multicellular spheroids; tissue biophysics; tissue growth

Mesh：

Year: 2021 PMID： 33947815 PMCID： PMC8126836 DOI： 10.1073/pnas.2021972118

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

43 in total

1. Cancer cells ablation with irreversible electroporation.

Authors: Liron Miller; Jonathan Leor; Boris Rubinsky
Journal: Technol Cancer Res Treat Date: 2005-12

2. Generic theory of active polar gels: a paradigm for cytoskeletal dynamics.

Authors: K Kruse; J F Joanny; F Jülicher; J Prost; K Sekimoto
Journal: Eur Phys J E Soft Matter Date: 2005-01-31 Impact factor: 1.890

3. The compleat Darcy: new lessons learned from the first English translation of Les Fontaines Publiques de la Ville de Dijon.

Authors: John M Sharp; Craig T Simmons
Journal: Ground Water Date: 2005 May-Jun Impact factor: 2.671

Hydraulic and electric control of cell spheroids.

1. Cancer cells ablation with irreversible electroporation.

2. Generic theory of active polar gels: a paradigm for cytoskeletal dynamics.

3. The compleat Darcy: new lessons learned from the first English translation of Les Fontaines Publiques de la Ville de Dijon.

4. Stress distributions and cell flows in a growing cell aggregate.

5. Hydraulic control of mammalian embryo size and cell fate.

Review 6. The bioelectric code: An ancient computational medium for dynamic control of growth and form.

7. Homeostatic competition drives tumor growth and metastasis nucleation.

Review 8. Hallmarks of cancer: the next generation.

9. Laminin and biomimetic extracellular elasticity enhance functional differentiation in mammary epithelia.

10. Electrolytic ablation enables cancer cell targeting through pH modulation.

Review 1. Hydrostatic pressure as a driver of cell and tissue morphogenesis.

2. Extracting multiple surfaces from 3D microscopy images in complex biological tissues with the Zellige software tool.

3. Active T1 transitions in cellular networks.