Application of co-culture technology of epithelial type cells and mesenchymal type cells using nanopatterned structures.

Taek-Hee Jung,Dong Sung Kim,Eun-Bin Chung,Eunmi Kim,Kang Moo Huh,Sung-Hwan Moon,Sun-Woong Kang,Anthony Safaa Mukhtar,Soon-Jung Park,Hyung-Min Chung,Hyung Woo Kim,Seong Woo Choi,Xuefeng Liu

doi:10.1371/journal.pone.0232899

Abstract

Various nanopatterning techniques have been developed to improve cell proliferation and differentiation efficiency. As we previously reported, nanopillars and pores are able to sustain human pluripotent stem cells and differentiate pancreatic cells. From this, the nanoscale patterns would be effective environment for the co-culturing of epithelial and mesenchymal cell types. Interestingly, the nanopatterning selectively reduced the proliferative rate of mesenchymal cells while increasing the expression of adhesion protein in epithelial type cells. Additionally, co-cultured cells on the nanopatterning were not negatively affected in terms of cell function metabolic ability or cell survival. This is in contrast to conventional co-culturing methods such as ultraviolet or chemical treatments. The nanopatterning appears to be an effective environment for mesenchymal co-cultures with typically low proliferative rates cells such as astrocytes, neurons, melanocytes, and fibroblasts without using potentially damaging treatments.

Highlights

It is important to provide conditions similar to the complex and intricate environment of the body for the proliferation and differentiation of cells [1,2,3]
We found that nanopatterned structures delayed the growth of mesenchymal type cells by reducing the expression of G2-M stagerelated genes in cell cycle, while promoting the attachment and growth of epithelial type cells by enhancing the expression of adhesion proteins in the nanopattern
A method of co-culture with mesenchymal type cells that secrete various growth factors is used for the growth of epithelial type cells that are difficult to culture

Summary

Introduction

It is important to provide conditions similar to the complex and intricate environment of the body for the proliferation and differentiation of cells [1,2,3]. In order to regulate cell behavior in vitro, soluble factors (growth factors, cytokines, small molecules, etc.) that mimic the microenvironment of native tissues are used. Evidence has been reported that in addition to the biochemical environment, the physical environment in contact with the cell plays an important role in the activity of the cells [4,5,6,7,8]. Co-culture of epithelial type cells and mesenchymal type cells using nanopatterning

Methods

Results

Conclusion