DNA damage stress control is a tLT- and EHMT2-dependent central feature of Merkel Cell Carcinoma.

Merkel cell carcinoma (MCC) is an aggressive skin cancer with a high mortality rate. MC polyomavirus (MCPyV) causes 80% of MCCs, encoding the viral oncogenes small T (sT) and truncated large T antigens (tLT). These proteins impair the Rb1-dependent G1/S checkpoint blockade and subvert the host cell epigenome to promote cancer. Whole proteome analysis and proximal interactomics identified a tLT-dependent deregulation of DNA damage response (DDR). Our investigation revealed a previously unreported interaction between tLT and the histone methyltransferase EHMT2, to our knowledge. T Antigens knockdown reduced DDR protein levels and increased levels of the DNA damage marker γH2Ax. EHMT2 normally promotes H3K9 methylation and DDR signaling. Given that inhibition of EHMT2 did not significantly change the MCC cells proteome, tLT-EHMT2 interaction could affect the DDR. With tLT, we report that EHMT2 gained DNA damage repair proximal interactors. EHMT2 inhibition rescued proliferation in MCC cells depleted for their T antigens, suggesting impaired DDR and/or lack of checkpoint efficiency. Combined tLT and EHMT2 inhibition led to altered DDR, evidenced by multiple signaling alterations. Here we show that tLT hijacks multiple components of the DNA damage machinery to enhance tolerance to DNA damage in MCC cells, which could explain the genetic stability of these cancers.

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