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Epigenetic-mediated immune suppression of positive co-stimulatory molecules in chemoresistant ovarian cancer cells.

Cell biology international (2017-01-12)
Ercan Cacan
ABSTRAKT

The immunological response against cancer is a critical balance between immune-activating and immune-suppressing mechanisms. Ovarian cancer creates a suppressive microenvironment to escape immune elimination; however, the molecular mechanisms are poorly understood, and it is unclear whether chemotherapeutic drugs exert an immunoreactive or immunosuppressive effect on the tumor microenvironment. 4-1BB ligand (4-1BBL/CD157) and OX-40 ligand (OX-40L/CD252) are important regulators of effector cytotoxic T-cells activity. This study demonstrates that expression of positive co-stimulatory molecules, OX-40L and 4-1BBL, is suppressed while expression of immunosuppressive molecule programmed death ligand-1 (PD-L1/CD274) is enhanced in chemoresistant cells compared to parental chemosensitive ovarian cancer cells. Here, the molecular mechanisms of silencing of OX-40L and 4-1BBL expression were investigated in chemoresistant A2780-AD ovarian cancer cells. The suppression of OX-40L and 4-1BBL are due to DNA hypermethylation and histone deacetylation, two important mechanisms that contribute to gene silencing during cancer progression. We identify important epigenetic regulators, histone deacetylase 1/3 (HDAC1/HDAC3) and DNA methyltransferase 1 (DNMT1), that exhibit aberrant association with OX-40L and 4-1BBL promoters in chemoresistant ovarian cancer cells. Knockdown of HDAC1 or DNMT1 expression, and pharmacological inhibition of DNMT or HDAC enzymatic activity, significantly increase OX-40L and 4-1BBL expression in chemoresistant cells. This study suggests that loss of histone acetylation and accumulation of DNA methylation correlates with suppressed expression of OX-40L and 4-1BBL in chemoresistant ovarian cancer cells. This study marks the first report of the regulation of these two molecules by histone deacetylation and DNA methylation in chemoresistant ovarian cancer cells.

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MISSION® esiRNA, targeting human DNMT1