Litcius/Paper detail

Electric field promotes dermal fibroblast transdifferentiation through activation of RhoA/ROCK1 pathway

Wenping Wang, Wanqi Huang, Jie Liu, Ze Zhang, Ran Ji, Chao Wu, Jiaping Zhang, Xupin Jiang

2023International Journal of Medical Sciences13 citationsDOIOpen Access PDF

Abstract

was established, where cells were randomly divided into control and electrified groups. The changes of protein expression and distribution were detected under different conditions, along with Zeiss imaging system observing the response of cells. Results showed that fibroblast transdifferentiation was accompanied by increased expression of a-SMA and extracellular matrix (COL-1 and COL-3) under the EF. Simultaneously, fibroblast transdifferentiation was also consistent with changes of cell arrangement and enhanced motility. Furthermore, we found that electric field activated RhoA signaling pathways activity. Y-27632, a RhoA inhibitor, which was used to treat fibroblasts, resulted in reduced transdifferentiation. The connection between electric field and RhoA signaling pathways is likely to be significant in modulating fibroblast transdifferentiation in acute injury and tissue remodeling, which provides an innovative idea for the molecular mechanism of EF in promoting chronic wound healing.

Topics & Concepts

TransdifferentiationRHOAFibroblastCell biologyROCK1Wound healingExtracellular matrixSignal transductionBiologyChemistryImmunologyStem cellIn vitroBiochemistryPlanarian Biology and ElectrostimulationWound Healing and TreatmentsLaser Applications in Dentistry and Medicine