Evaluation of Combined Sensitising and Hypomethylating Therapy Outcomes in AML PDX (COSMOS-Avatar)

Treatment options for patients with acute myeloid leukemia (AML) who are unfit or refractory to intensive chemotherapy, or who have relapsed after hematopoietic stem cell transplantation, remain limited. Hypomethylating agents (HMAs) are effective in prolonging patient survival, but they are often associated with adverse events and their therapeutic effects are temporary. By elucidating the resistance mechanisms used by AML cells, we have identified drugs that selectively sensitise these tumour cells to HMAs, with minimal toxicity to healthy blood cells. Patient-derived xenografts (PDX) have emerged as a valuable tool for drug testing in cancer research. They can better replicate the primary tumour and its environment in vivo, mimicking the disease progression and treatment responses of their corresponding donor with superior fidelity and predictive potential compared to current in vitro systems. The COSMOS-Avatar study aims to establish a drug testing platform to guide precision therapies tailored to defined tumour profiles. Tumour cells obtained over two years through altruistic donation for research will be used to generate AML PDX mouse models or avatars that will be used to compare standard of care and multiple candidate therapies simultaneously. Promising drug combinations identified through the COSMOS-Avatar study will proceed to a dedicated independent Phase I clinical trial platform to accelerate drug discovery and development of AML therapies.