Prospective Validation of a DNA Damage Repair-Hippo Pathway Signature in Patients With Advanced Gastric Cancer

This prospective, multicenter, non-interventional trial is designed for prospectively validating the DDR-Hippo signature as a predictor of inferior PFS in patients with inoperable locally advanced or metastatic GC receiving first-line therapy. Patients will be evaluated for response to chemotherapy every two cycles by current RECIST criteria. PFS will be defined as the time elapsing between the initiation of chemotherapy until objective tumor progression or death, and OS as the time elapsing between the initiation of chemotherapy until death from any cause. All molecular analyses will be centralized at the coordinating center. Investigators performing molecular analyses will be masked to clinical outcomes. Centralized radiological review is planned. The study will be conducted in accordance with the Declaration of Helsinki and adheres to the REMARK criteria.

The second task is designed for exploring genetic events functionally related to the DDR and Hippo pathways that may modify the predictive significance of the signature. These genes are schematically clustered on the basis of the expected alteration in: i) Mutated genes (cluster 1) to be evaluated by targeted DNA-Seq and amplified genes (cluster 2) to be evaluated by FISH/CISH. Cluster 1 includes TP53 (defective cell cycle progression and apoptotic response, aberrant TAZ/YAP-mediated transcription), KRAS (oncogene-induced replication stress and activation of cell cycle checkpoints to avoid apoptosis and senescence), BRCA1 and BRCA2 (defective homologous recombination repair), ARID1A, ATR and ATM (altered ATM/ATR-initiated DNA repair), RHOA (G-protein coupled receptor-mediated activation of TAZ/YAP), CTNNB1, APC and FBXW7 (Wnt-mediated control of TAZ/YAP). Cluster 2 encompasses MYC and KRAS (oncogene-induced replication stress), CCNE1, CCND1 and CDK6 (dysfunctional G1-S transition requiring compensatory activation of intra-S and G2/M checkpoints).

The present study is designed to generate prospective evidence on the ability of the investigated biomarkers to predict the efficacy of first-line chemotherapy in GC patients. The identification of patients who derive marginal benefit from chemotherapy holds the potential to expedite a wave of interventional trials with agents targeting the DDR-Hippo network (e.g. PARP inhibitors and ATR-Chk1 and ATM-Chk2 inhibitors), as well as to delineate the target population for studies with other compounds, such as immune checkpoint inhibitors. Overall, the experimental approach we propose is expected to culminate in the generation of a new tool to be used on a routine basis.