Abstract
Loss of p53 can promote tumor progression by preventing induction of senescence, a critical tumor-suppressive mechanism that limits tumor proliferation. Promotion of senescence in a p53-independent manner can be a novel strategy to overcome treatment resistance in p53-mutant brain tumors. Protein-Phosphatase-2A (PP2A), a ubiquitous serine/threonine phosphatase, regulates various cellular processes including cell-cycle progression. We hypothesize that PP2A-deficiency can induce tumor senescence independent of p53-mutational-status and sensitize tumors to senolytic therapy. CRISPR-KO of PP2A was generated in multiple p53-mutant tumor cell lines: D425 (human medulloblastoma), SB28 and GL261 (murine glioma). Hallmarks of senescence such as b-galactosidase, p21, and p16 were assessed via flow cytometry, RT-PCR and Western-Blot. Secretion of senescence-associated secretory phenotype (SASP), such as IL8, was assessed through ELISA. b-galactosidase, p21, p16 and IL8 were dramatically increased in PP2A-KO compared to WT at baseline. The effect was further enhanced when combined with radiation therapy (RT), a known inducer of senescence, demonstrating PP2A-deficiency synergizes with RT and significantly increases cellular senescence. Expression of CD1d, a MHC1-like molecule associated with senescence and required for invariant NKT cell-activation (iNKT), was dramatically increased in PP2A-KO in comparison to WT via flow-cytometry. In-vitro, sensitivity to WT and PP2A-KO cells to senolytic treatments, such as ABT-737 and iNKT-cell therapy, was tested using an XCelligence-assay system and flow-cytometry-based cytotoxicity assay. PP2A-deficient cells were sensitized to ABT-737, a BCL-xL inhibitor that preferentially targets and kills senescent cells. Co-culture revealed increased cytotoxicity of iNKT-cells against PP2A-deficient tumors compared to WT. In vivo, D425 WT or PP2A-KO cells were injected intracranially into nude NU/J mice, radiated 2 days post-injection, and monitored till endpoint. At baseline, PP2A-KO mice survived longer than WT, and those with PP2A-KO and RT survived the longest. In conclusion, we report that PP2A-deficiency in tumor cells can induce p53-independent senescence and sensitize brain tumors to senolytic therapy.