Epigenome editing based on CRISPR/dCas9p300 facilitates transdifferentiation of human fibroblasts into Leydig-like cells
Hua Huang, Wen Zhang, Jian Zhang, Anshun Zhao, Hongwei Jiang
Journal:EXPERIMENTAL CELL RESEARCH
IF:3.7
DOI:10.1016/j.yexcr.2023.113551
PMID:36914062
Published:2023-03-11
research field:细胞生物学生殖医学遗传学表观遗传学
Abstract
Recently, Leydig cell (LCs) transplantation has a promising potential to treat male hypogonadism. However, the scarcity of seed cells is the actual barrier impeding the application of LCs transplantation. Utilizing the cutting-edge CRISPR/dCas9 VP64 technology, human foreskin fibroblasts (HFFs) were transdifferentiated into Leydig-like cells(iLCs) in previous study, but the efficiency of transdifferentiation is not very satisfactory. Therefore, this study was conducted to further optimize the CRISPR/dCas9 system for obtaining sufficient iLCs. First, the stable CYP11A1-Promoter-GFP-HFFs cell line was established by infecting HFFs with CYP11A1-Promoter-GFP lentiviral vectors, and then co-infected with dCas9 p300 and the combination of sgRNAs targeted to NR5A1, GATA4 and DMRT1. Next, this study adopted quantitative reverse transcription polymerase chain reaction (qRT-PCR), Western blot, and immunofluorescence to determine the efficiency of transdifferentiation, the generation of testosterone, the expression levels of steroidogenic biomarkers. Moreover, we utilized chromatin immuno-precipitation (ChIP) followed by quantitative polymerase chain reaction (ChIP-qPCR) to measure the levels of acetylation of targeted H3K27. The results revealed that advanced dCas9 p300 facilitated generation of iLCs. Moreover, the dCas9 p300 -mediated iLCs significantly expressed the steroidogenic biomarkers and produced more testosterone with or without LH treatment than the dCas9 VP64 -mediated. Additionally, preferred enrichment in H3K27ac at the promoters was detected only with dCas9 p300 treatment. The data provided here imply that the improved version of dCas9 can aid in the harvesting of iLCs, and will provide sufficient seed cells for cell transplantation treatment of androgen deficiency in the future.
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