CHK1 as a therapeutic target to bypass chemoresistance in AML
Menée sur 198 patients atteints d'une leucémie myéloïde aiguë traitée à l'aide de cytarabine, cette étude française suggère l'intérêt de mesurer l'expression de CHEK1 pour prédire la réponse thérapeutique et identifier les patients susceptibles de bénéficier d'un traitement par inhibiteur de CHK1
A pair of papers provides new hope for patients with acute myeloid leukemia (AML) by showing that the DNA replication checkpoint pathway is a viable target for therapeutic intervention. By integrating survival data from 198 treated AML patients with gene expression data for genes encoding proteins involved in the regulation of DNA replication, David et al. identified the CHEK1 gene and its product, the DNA replication checkpoint kinase CHK1, as both a prognostic indicator of survival and a therapeutic target to overcome resistance to the current standard of chemotherapy. The patients had all received standard-of-care chemotherapy. Patients with high expression of CHEK1 in their AML cells had reduced survival, and AML patient cells with high CHK1 abundance were resistant to the toxic effects of the DNA replication inhibitor cytarabine. CHK1 is activated by the kinase ATR in response to DNA replication stress arising from DNA damage. The identification of CHEK1 expression as high in lymphomas and leukemias, including AML, prompted Morgado-Palacin et al. to investigate targeting ATR and ATM, the most upstream kinases in the DNA damage response, as possible AML therapies. AML cells with oncogenic rearrangements in MLL are particularly resistant to genotoxic therapies that form the backbone of AML treatment. Inhibiting ATR resulted in death of AMLMLL cells in culture and exhibited antitumoral activity in AMLMLL mouse models. Inhibiting ATM also prolonged survival of the allograft mouse model, indicating that targeting the DNA damage response pathways alone or in combination with other chemotherapeutic agents may be beneficial in patients with AML.
The nucleoside analog cytarabine, an inhibitor of DNA replication fork progression that results in DNA damage, is currently used in the treatment of acute myeloid leukemia (AML). We explored the prognostic value of the expression of 72 genes involved in various aspects of DNA replication in a set of 198 AML patients treated by cytarabine-based chemotherapy. We unveiled that high expression of the DNA replication checkpoint gene CHEK1 is a prognostic marker associated with shorter overall, event-free, and relapse-free survivals and determined that the expression of CHEK1 can predict more frequent and earlier postremission relapse. CHEK1 encodes checkpoint kinase 1 (CHK1), which is activated by the kinase ATR when DNA replication is impaired by DNA damage. High abundance of CHK1 in AML patient cells correlated with higher clonogenic ability and more efficient DNA replication fork progression upon cytarabine treatment. Exposing the patient cells with the high abundance of CHK1 to SCH900776, an inhibitor of the kinase activity of CHK1, reduced clonogenic ability and progression of DNA replication in the presence of cytarabine. These results indicated that some AML cells rely on an efficient CHK1-mediated replication stress response for viability and that therapeutic strategies that inhibit CHK1 could extend current cytarabine-based treatments and overcome drug resistance. Furthermore, monitoring CHEK1 expression could be used both as a predictor of outcome and as a marker to select AML patients for CHK1 inhibitor treatments.
Science Signaling , résumé, 2015