The HDAC2/YY1/c-Myc signaling axis regulates lung cancer cell migration and proliferation.

Abstract

Lung cancer is among the most aggressive types of malignant tumors that contributes to cancer-associated deaths worldwide with a high occurrence and fatality rate. Histone deacetylase 2 (HDAC2), prevent the aberrant transcription of a number of genes that are primarily responsible for controlling the cell cycle, cell proliferation, and signaling pathways in numerous cancers. Previous studies reported the role of HDACs and YY1 in the growth and development of several cancers. Although, it is noteworthy that remarkable efforts have been taken for the treatment of lung cancer using molecularly targeted therapies and chemotherapeutic agents, but the outcome is still poor for this critically persistent cancer. Therefore, the aim of the present study is to identify an efficacious, novel therapeutic biomarkers for the successful diagnosis of lung cancer at the early stage of the disease and the molecular insights involved. In the present study, qPCR and western bot data revealed that the expression level of HDAC2 and YY1 were upregulated in the cell lines and tumor samples of lung cancer patients. Moreover, MTT, qPCR, western blot, cell cycle analysis, and migration assays showed that inhibition of HDAC2 reduced YY1 expression, similarly, depletion of YY1 using knockdown approach inhibited the proliferation, migration, invasion, and blockage of the cell cycle by suppressing c-Myc in lung cancer cell lines. In conclusion, the current study findings support the notion that HDAC2's anticancer role was attributed through YY1 regulation by targeting c-Myc and could act as potential novel candidate biomarker for the lung cancer diagnosis.