Establishment of Immortalized Laryngeal Epithelial Cells Transfected with Bmi1

Abstract: Primary laryngeal epithelial cells are essential to exploring the mechanisms of laryngeal and voice disorders; however, they are difficult to study and apply because of their limited life span. The purpose of this study was to develop a stable and reliable in vitro model for the comprehensive study of the pathogenesis of laryngeal and voice diseases. The pLVTHM-Bmi1 plasmid was constructed and used to immortalize primary laryngeal epithelial cells by lentiviral infection. The expressions of Bmi1, human telomer… Show more

“…This includes directly binding to the promoters and increasing the expression of the regulators of the first 2 steps of cholesterol biosynthesis, including the rate-limiting HMGCR. Despite overexpression of BMI1, which can contribute to immortalization of multiple different cell types (Dimri, 2002;Song, 2006;Tan, 2020), iSREs maintain a normal karyotype and a strong tendency to terminally differentiate, necessitating weekly FACS-based enrichment to maintain a population of self-renewing cells. Our transcriptomic analysis indicates that iSREs appear poised between upstream proliferating erythroid progenitors and downstream terminally maturing erythroid precursors.…”

BMI1 regulates human erythroid self-renewal through both gene repression and gene activation

“…This includes directly binding to the promoters and increasing the expression of the regulators of the first 2 steps of cholesterol biosynthesis, including the rate-limiting HMGCR. Despite overexpression of BMI1, which can contribute to immortalization of multiple different cell types (Dimri, 2002;Song, 2006;Tan, 2020), iSREs maintain a normal karyotype and a strong tendency to terminally differentiate, necessitating weekly FACS-based enrichment to maintain a population of self-renewing cells. Our transcriptomic analysis indicates that iSREs appear poised between upstream proliferating erythroid progenitors and downstream terminally maturing erythroid precursors.…”

BMI1 regulates human erythroid self-renewal through both gene repression and gene activation

Association of pepsin and DNA damage in laryngopharyngeal reflux-related vocal fold polyps

Pepsin-mediated inflammation in laryngopharyngeal reflux via the ROS/NLRP3/IL-1β signaling pathway