Isolation of Rare Antigen-Specific Memory B Cells via Antigen Tetramers.

Abstract

Immunological memory, which sets the foundation for the adaptive immune response, plays a key role in disease protection and prevention. Obtaining a deeper understanding of the mechanisms underlying this phenomenon can aide in research aimed to improve vaccines and therapies. Memory B cells (MBCs) are a fundamental component of immunological memory but can exist in rare populations that prove challenging to study. By combining fluorescent antigen tetramers with multiple enrichment processes, a highly streamlined method for identifying and sorting antigen-specific MBCs from human blood and lymphoid tissues can be achieved. With the output of this process being viable cells, there is a multitude of downstream operations that can be used in conjunction with the antigen-specific cell sorting outlined in this chapter. Single-cell RNA-sequencing paired with B cell repertoire sequencing, which can be linked to distinct antigens in a high-throughput fashion, is a downstream application widely used in disease and vaccination research. Incorporation of this protocol can lead to a variety of applications and a diversity of outcomes aiding in a deeper understanding of how immunological memory not only forms but is recalled and impacted by infection and vaccination.