Phylogenetic analysis of migration, differentiation, and class switching in B cells

Author summary B cells produce high affinity antibodies through an evolutionary process of mutation and selection during adaptive immune responses. Migration between tissues, differentiation to cellular subtypes, and switching between different antibody isotypes can be important factors in shaping the role B cells play in response to infection, autoimmune disease, and allergies. B cell receptor (BCR) sequence data has the potential to elucidate important information about these processes. However, there is currently no robust, generalizable framework for making such inferences from BCR sequence data. Here, we develop three parsimony-based summary statistics to characterize migration, differentiation, and isotype switching along B cell phylogenetic trees. Using simulations, we confirm the effectiveness of our approach, as well as identify some caveats. We further use these summary statistics to investigate patterns of cellular differentiation in three HIV patients, and patterns of isotype switching in an individual with food allergies. Our methods are released in the R package dowser: https://bitbucket.org/kleinstein/dowser.