Pediatric cancer is the leading cause of disease-related death in children in developed countries. However, compared to adult cancer, pediatric cancer is a rare disease. Pediatric tumors are different from their adult counterparts: they are thought to arise from developmental stages and many of them have an unknown cell of origin. Their genomes have in general a low mutational burden, affecting only a few cancer driver genes. Nonetheless, the information that can be extracted from cancer genomes is varied and rich, as somatic mutations are part of the history of cells and they can inform us about the origin of tumors. In fact, our recent work on the origin of second malignancies in children has elucidated some mechanisms of pediatric tumor evolution. Therefore, there is an opportunity to understand the origin and evolution of pediatric tumors by studying their genomes. For this, the main focus of my research is to understand pediatric cancer using genomics. By performing bioinformatic analysis such as clonality distribution and mutational signatures we can decipher when the driver event and the clonal expansion occur, and how tumors evolve with time and across different tumor lesions and in response to therapy. Learning about the origins of pediatric cancer helps understanding its biology to ultimately develop effective treatments.
Mònica Sánchez-Guixé (Mon,) studied this question.