Christopher’s research centers on the earliest steps whereby normal cells transform into abnormal cells with the potential to become cancer. He will focus on better understanding the first steps of the process by which normal blood cells become lymphomas, cancers that are generally thought to arise from blood cells that have already committed to becoming lymphocytes, an important component of the immune system. He hypothesizes, however, that some lymphomas actually arise from earlier hematopoietic stem cells (HSCs). He will interrogate this hypothesis by studying a cohort of lymphoma patients who also have detectable genetic mutations in HSCs that are known to be associated with blood cancers – a condition known as clonal hematopoiesis of indeterminate potential, or CHIP – to determine whether the mutations in the HSCs were the earliest events in the development of the patients’ lymphomas. Having a better understanding of lymphomas’ cellular basis will hopefully allow new insights into their clinical behavior and therapeutic vulnerabilities.