Epigenetically regulated clonal heritability of CTA expression profiles in human melanoma

The intratumoral heterogeneity of cancer testis antigens (CTA) expression, which is driven by promoter methylation status, may hamper the effectiveness of CTA-directed vaccination of melanoma patients. Thus, we investigated whether the intratumoral heterogeneity of CTA expression is inherited at cellular level, or evolves throughout cellular replication, leading to a phenotypically unstable tumor cell population with reduced immunogenicity and/or able to escape immune control. Utilizing a previously characterized ex vivo clonal model of intratumoral heterogeneity of CTA expression in melanoma, Mel 313 MAGE-A3-low clone 5 (clone 5M3-low) and MAGE-A3-high clone 14 (clone 14 M3-high) were sub-cloned and analyzed for CTA profile. Molecular assays demonstrated that levels of MAGE-A3 expression were highly conserved among generated sub-clones, as compared to parental clones. A similar behavior was identified for an extensive panel of other CTA investigated. Inherited levels of MAGE-A3 expression correlated with the extent of promoter methylation among clone 5M3-low and clone 14M3-high sub-clones analyzed. Treatment of clone 5M3-low with a DNA hypomethylating agent (DHA) resulted in an up-regulated expression of MAGE-A3, which was inherited at single cell level, being still detectable at day 60 in its sub-clones. Bisulfite sequencing demonstrated that also MAGE-A3 promoter methylation status was inherited among sub-clones generated from DHA-treated clone 5 M3-low and strictly correlated with MAGE-A3 expression levels in investigated sub-clones. Similar results were obtained for additional CTA studied. Altogether our findings demonstrate that constitutive and DHA-modified CTA profiles of melanoma cells are clonally inherited throughout cellular replications, thus providing relevant insights to improve the effectiveness of CTA-based immunotherapy.