RT Journal Article
SR Electronic
T1 Carcinogen 4-Nitroquinoline Oxide (4-NQO) Induces Oncostatin-M (OSM) in Esophageal Cells
JF In Vivo
JO In Vivo
FD International Institute of Anticancer Research
SP 506
OP 518
DO 10.21873/invivo.13108
VO 37
IS 2
A1 AMITAVA MUKHERJEE
A1 MICHAEL W. EPPERLY
A1 RENEE FISHER
A1 DONNA SHIELDS
A1 WEN HOU
A1 ARJUN PENNATHUR
A1 JAMES LUKETICH
A1 HONG WANG
A1 JOEL S. GREENBERGER
YR 2023
UL http://iv.iiarjournals.org/content/37/2/506.abstract
AB Background/Aim: The earliest cellular and molecular biologic changes in the esophagus that lead to esophageal cancer were evaluated in a mouse model. We correlated numbers of senescent cells with the levels of expression of potentially carcinogenic genes in sorted side population (SP) cells containing esophageal stem cells and non-stem cells in the non-side population cells in the 4-nitroquinolone oxide (NQO)-treated esophagus. Materials and Methods: We compared stem cells with non-stem cells from the esophagus of mice treated with the chemical carcinogen 4-NQO (100 μg/ml) in drinking water. We also compared gene expression in human esophagus samples treated with 4-NQO (100 μg/ml media) to non-treated samples. We separated and quantitated the relative levels of expression of RNA using RNAseq analysis. We identified senescent cells by luciferase imaging of p16+/LUC mice and senescent cells in excised esophagus from tdTOMp16+ mice. Results: A significant increase in the levels of RNA for oncostatin-M was found in senescent cells of the esophagus from 4-NQO-treated mice and human esophagus in vitro. Conclusion: Induction of OSM in chemically-induced esophageal cancer in mice correlates with the appearance of senescent cells.