Impact of the Physical Cellular Microenvironment on the Structure and Function of a Model Hepatocyte Cell Line for Drug Toxicity Applications

Author:

Allcock Benjamin1,Wei Wenbin1ORCID,Goncalves Kirsty1ORCID,Hoyle Henry1ORCID,Robert Alisha1,Quelch-Cliffe Rebecca1,Hayward Adam1,Cooper Jim2,Przyborski Stefan13

Affiliation:

1. Department of Biosciences, Durham University, Durham DH1 3LE, UK

2. European Collection of Authenticated Cell Cultures, Salisbury SP4 0JG, UK

3. Reprocell Europe Ltd., Glasgow G20 0XA, UK

Abstract

It is widely recognised that cells respond to their microenvironment, which has implications for cell culture practices. Growth cues provided by 2D cell culture substrates are far removed from native 3D tissue structure in vivo. Geometry is one of many factors that differs between in vitro culture and in vivo cellular environments. Cultured cells are far removed from their native counterparts and lose some of their predictive capability and reliability. In this study, we examine the cellular processes that occur when a cell is cultured on 2D or 3D surfaces for a short period of 8 days prior to its use in functional assays, which we term: “priming”. We follow the process of mechanotransduction from cytoskeletal alterations, to changes to nuclear structure, leading to alterations in gene expression, protein expression and improved functional capabilities. In this study, we utilise HepG2 cells as a hepatocyte model cell line, due to their robustness for drug toxicity screening. Here, we demonstrate enhanced functionality and improved drug toxicity profiles that better reflect the in vivo clinical response. However, findings more broadly reflect in vitro cell culture practises across many areas of cell biology, demonstrating the fundamental impact of mechanotransduction in bioengineering and cell biology.

Funder

Biotechnology and Biological Sciences Research Council

Publisher

MDPI AG

Subject

General Medicine

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