RNA-Seq analysis revealed the molecular mechanisms of photobiomodulation effect on human fibroblasts.

Abstract

The photobiomodulation (PBM) effect has been applied to various clinical therapy for a long time. However, the mechanism related to the PBM effect in terms of wavelengths has been lack of in-depth study, except that ultraviolet radiation has attracted much attention due to its strong cell-killing effect. To clarify the principle behind PBM and the main mechanism of improvement. To carry on this study, we created light equipment using three LED chips, which emit 390nm ultraviolet radiation, 415nm blue light and 660nm red light, respectively. We choose human fibroblasts (HF) to be irradiated by three different wavelengths for PBM test. In this study, we used cell counting kit (CCK-8) test to show the cell proliferation roughly and reported on a systematic RNA sequencing (RNA-seq) analysis at transcriptional expression levels from HF, which accepted PBM of different wavelengths of light. We found that 415nm blue light inhibited cell proliferation and 660nm red light stimulated cell proliferation while 390nm ultraviolet radiation has little influence on cell proliferation. Furthermore, RNA-seq results showed that CSF1R, PPP3CC, ITGAL, ITGAM, IL2RB, and several other differentially expressed genes (DEGs) are involved in the cell proliferation. Relative DEGs values for matrix metalloproteinases (MMPs) gene family have shown a great difference in blue and red light radiation especially on MMP25, MMP9, MMP21, and MMP13. Taken together, the results provide a valuable resource to describe the variation of HFs under PBM of different light at gene level.