Abstract
The proliferation and differentiation of cultured epithelial cells may be modified by Rho-associated kinase (ROCK) inhibition and extracellular Ca2+ concentration. However, it was not known whether a combination would influence the behavior of cultured epithelial cells through changes in the phosphorylation of non-muscle myosin light chain II (MLC). Here we show that the combination of ROCK inhibition with Ca2+ elevation regulated the phosphorylation of MLC and improved both cell expansion and cell–cell adhesion during the culture of human nasal mucosal epithelial cell sheets. During explant culture, Ca2+ enhanced the adhesion of nasal mucosal tissue, while ROCK inhibition downregulated MLC phosphorylation and promoted cell proliferation. During cell sheet culture, an elevation of extracellular Ca2+ promoted MLC phosphorylation and formation of cell–cell junctions, allowing the harvesting of cell sheets without collapse. Moreover, an in vitro grafting assay revealed that ROCK inhibition increased the expansion of cell sheets three-fold (an effect maintained when Ca2+ was also elevated), implying better wound healing potential. We suggest that combining ROCK inhibition with elevation of Ca2+ could facilitate the fabrication of many types of cell graft.
Highlights
Controls the myosin II activation and optimizes human nasal epithelial cell sheets Yoshiyuki Kasai*, Tsunetaro Morino, Eri Mori, Kazuhisa Yamamoto & Hiromi Kojima*
Nasal cells reached a confluency of only 15 ± 5% (n = 4) when cultured in keratinocyte culture medium (KCM) containing 10% fetal bovine serum (FBS), which was significantly lower than that achieved with KCM supplemented with 5% autologous human serum (KCM-HS) (38 ± 14%, n = 5; P < 0.05, Fig. S1A)
The present study examined the use of Y-27632 and different concentrations of extracellular C a2+ to optimize both explant culture and cell sheet culture
Summary
Controls the myosin II activation and optimizes human nasal epithelial cell sheets Yoshiyuki Kasai*, Tsunetaro Morino, Eri Mori, Kazuhisa Yamamoto & Hiromi Kojima*. The proliferation and differentiation of cultured epithelial cells may be modified by Rho-associated kinase (ROCK) inhibition and extracellular Ca2+ concentration. It was not known whether a combination would influence the behavior of cultured epithelial cells through changes in the phosphorylation of non-muscle myosin light chain II (MLC). We show that the combination of ROCK inhibition with Ca2+ elevation regulated the phosphorylation of MLC and improved both cell expansion and cell–cell adhesion during the culture of human nasal mucosal epithelial cell sheets. During explant culture, Ca2+ enhanced the adhesion of nasal mucosal tissue, while ROCK inhibition downregulated MLC phosphorylation and promoted cell proliferation. Addition of a ROCKi and alteration of the extracellular C a2+ concentration are two methods that can be used to regulate the MLC activity, proliferation and differentiation of epithelial cells
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