Abstract
Epstein-Barr virus (EBV) causes lymphomas and epithelial cell cancers. Though generally silent in B lymphocytes, this widely prevalent virus can cause endemic Burkitt lymphoma and post-transplant lymphoproliferative disorders/lymphomas in immunocompromised hosts. By learning how EBV breaches barriers to cell proliferation, we hope to undermine those strategies to treat EBV lymphomas and potentially other cancers. We had previously found that EBV, through activation of cellular STAT3 prevents phosphorylation of Chk1, and thereby, suppresses activation of the intra-S phase cell-cycle checkpoint, a potent barrier to oncogene-driven proliferation. This observation prompted us to examine the consequences on DNA repair since homologous recombination repair, the most error-free form, requires phosphoChk1. We now report that the defect in Chk1 phosphorylation also curtails RAD51 nucleation, and thereby, homologous recombination repair of DNA double strand breaks. The resulting reliance on error-prone microhomology-mediated end-joining (MMEJ) repair makes EBV-transformed cells susceptible to PARP inhibition and simultaneous accrual of genome-wide deletions and insertions resulting from synthesis-dependent MMEJ. Analysis of transcriptomic and drug susceptibility data from hundreds of cancer lines reveals a STAT3-dependent gene-set predictive of susceptibility of cancers to synthetic lethal PARP inhibition. These findings i) demonstrate how the tumor virus EBV re-shapes cellular DNA repair, ii) provide the first genome-wide evidence for insertions resulting from MMEJ in human cells, and iii) expand the range of cancers (EBV-related and -unrelated) that are likely to respond to synthetic lethal inhibitors given the high prevalence of cancers with constitutively active STAT3.
Highlights
Epstein-Barr virus (EBV) is causally linked to endemic Burkitt lymphoma in equatorial Africa and B-cell lymphoproliferative diseases (LPD)/lymphomas in immunocompromised individuals such as those with HIV/AIDS, transplant recipients, or individuals on immunomodulatory agents [1,2,3]
In a transformation model based on the cancer-causing Epstein-Barr virus (EBV), we previously demonstrated that the cellular oncoprotein STAT3, activated during transformation, impairs ATR’s ability to phosphorylate Chk1 in response to replication stress, thereby relaxing the intra-S phase checkpoint
While this relaxation allows EBV-transformed cells to rapidly traverse the S phase checkpoint, we show that activation of STAT3 has another important consequence
Summary
Epstein-Barr virus (EBV) is causally linked to endemic Burkitt lymphoma in equatorial Africa and B-cell lymphoproliferative diseases (LPD)/lymphomas in immunocompromised individuals such as those with HIV/AIDS, transplant recipients, or individuals on immunomodulatory agents [1,2,3]. Therapeutic approaches include reduction of immunosuppression (RIS), ablation of CD20+ B cells using Rituximab, adoptive T cell therapies, combination chemotherapy, surgery, and radiation therapy [4,5,6,7,8] While these improve survival and quality of life of LPD patients, RIS can lead to damage or loss of transplanted organs, Rituximab causes global and often long-term B cell immunodeficiency, T cell therapies are not widely available, and chemotherapy, surgery, and radiation therapies are effective in selected cases, highlighting the need for additional strategies for prevention and treatment. As LCL are an excellent model to study immunocompromise-associated LPD, we are using them to identify strategies that EBV uses to dampen cell-intrinsic barriers to ensure that transformed cells are able to proliferate. With phospho-Chk essential for key functions such as STAT3 imparts BRCAness to EBV-transformed B cells homologous recombination repair (HR) [12, 13], in cancer cells, we investigated the effects of blunted Chk phosphorylation on DNA repair in EBV-transformed cells
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