Browsing by Author "Guarnerio, Jlenia"
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Item Open Access Suppression of CHK1 by ETS Family Members Promotes DNA Damage Response Bypass and Tumorigenesis.(Cancer discovery, 2015-05) Lunardi, Andrea; Varmeh, Shohreh; Chen, Ming; Taulli, Riccardo; Guarnerio, Jlenia; Ala, Ugo; Seitzer, Nina; Ishikawa, Tomoki; Carver, Brett S; Hobbs, Robin M; Quarantotti, Valentina; Ng, Christopher; Berger, Alice H; Nardella, Caterina; Poliseno, Laura; Montironi, Rodolfo; Castillo-Martin, Mireia; Cordon-Cardo, Carlos; Signoretti, Sabina; Pandolfi, Pier PaoloUNLABELLED:The ETS family of transcription factors has been repeatedly implicated in tumorigenesis. In prostate cancer, ETS family members, such as ERG, ETV1, ETV4, and ETV5, are frequently overexpressed due to chromosomal translocations, but the molecular mechanisms by which they promote prostate tumorigenesis remain largely undefined. Here, we show that ETS family members, such as ERG and ETV1, directly repress the expression of the checkpoint kinase 1 (CHK1), a key DNA damage response cell-cycle regulator essential for the maintenance of genome integrity. Critically, we find that ERG expression correlates with CHK1 downregulation in human patients and demonstrate that Chk1 heterozygosity promotes the progression of high-grade prostatic intraepithelial neoplasia into prostatic invasive carcinoma in Pten(+) (/-) mice. Importantly, CHK1 downregulation sensitizes prostate tumor cells to etoposide but not to docetaxel treatment. Thus, we identify CHK1 as a key functional target of the ETS proto-oncogenic family with important therapeutic implications. SIGNIFICANCE:Genetic translocation and aberrant expression of ETS family members is a common event in different types of human tumors. Here, we show that through the transcriptional repression of CHK1, ETS factors may favor DNA damage accumulation and consequent genetic instability in proliferating cells. Importantly, our findings provide a rationale for testing DNA replication inhibitor agents in ETS-positive TP53-proficient tumors.Item Open Access Vulnerabilities in mIDH2 AML confer sensitivity to APL-like targeted combination therapy.(Cell research, 2019-06) Mugoni, Vera; Panella, Riccardo; Cheloni, Giulia; Chen, Ming; Pozdnyakova, Olga; Stroopinsky, Dina; Guarnerio, Jlenia; Monteleone, Emanuele; Lee, Jonathan David; Mendez, Lourdes; Menon, Archita Venugopal; Aster, Jon Christopher; Lane, Andrew A; Stone, Richard Maury; Galinsky, Ilene; Zamora, José Cervera; Lo-Coco, Francesco; Bhasin, Manoj Kumar; Avigan, David; Longo, Letizia; Clohessy, John Gerard; Pandolfi, Pier PaoloAlthough targeted therapies have proven effective and even curative in human leukaemia, resistance often ensues. IDH enzymes are mutated in ~20% of human AML, with targeted therapies under clinical evaluation. We here characterize leukaemia evolution from mutant IDH2 (mIDH2)-dependence to independence identifying key targetable vulnerabilities of mIDH2 leukaemia that are retained during evolution and progression from early to late stages. Mechanistically, we find that mIDH2 leukaemia are metastable and vulnerable at two distinct levels. On the one hand, they are characterized by oxidative and genotoxic stress, in spite of increased 1-carbon metabolism and glutathione levels. On the other hand, mIDH2 leukaemia display inhibition of LSD1 and a resulting transcriptional signature of all-trans retinoic acid (ATRA) sensitization, in spite of a state of suppressed ATRA signalling due to increased levels of PIN1. We further identify GSH/ROS and PIN1/LSD1 as critical nodes for leukaemia maintenance and the combination of ATRA and arsenic trioxide (ATO) as a key therapeutic modality to target these vulnerabilities. Strikingly, we demonstrate that the combination of ATRA and ATO proves to be a powerfully synergistic and effective therapy in a number of mouse and human mIDH1/2 leukemic models. Thus, our findings pave the way towards the treatment of a sizable fraction of human AMLs through targeted APL-like combinatorial therapies.