Abstract
Background:Human memory B cells play a vital role in the long-term protection of the host from pathogenic re-challenge. In recent years the importance of a number of different memory B cell subsets that can be formed in response to vaccination or infection has started to become clear. To study memory B cell responses, cells can be culturedex vivo,allowing for an increase in cell number and activation of these quiescent cells, providing sufficient quantities of each memory subset to enable full investigation of functionality. However, despite numerous papers being published demonstrating bulk memory B cell culture, we could find no literature on optimised conditions for the study of memory B cell subsets, such as IgM+memory B cells.Methods:Following a literature review, we carried out a large screen of memory B cell expansion conditions to identify the combination that induced the highest levels of memory B cell expansion. We subsequently used a novel Design of Experiments approach to finely tune the optimal memory B cell expansion and differentiation conditions for human memory B cell subsets. Finally, we characterised the resultant memory B cell subpopulations by IgH sequencing and flow cytometry.Results:The application of specific optimised conditions induce multiple rounds of memory B cell proliferation equally across Ig isotypes, differentiation of memory B cells to antibody secreting cells, and importantly do not alter the Ig genotype of the stimulated cells. Conclusions:Overall, our data identify a memory B cell culture system that offers a robust platform for investigating the functionality of rare memory B cell subsets to infection and/or vaccination.
Highlights
The B cell response plays a vital role in the defence against a variety of pathogens encountered throughout life
Memory B cells isolated from peripheral blood mononuclear cells (PBMCs) are efficiently differentiated into high Ig secretory antibody secreting cells (ASCs) by culture with optimal levels of IL-21, TLR and CD40 co-stimulation In order to identify the conditions best suited for inducing memory B cell expansion and differentiation towards ASCs, a
Differences in location, kinetic time point and type of vaccination or infection all influence the development of different memory B cell subsets
Summary
The B cell response plays a vital role in the defence against a variety of pathogens encountered throughout life. The existence of IgM+ CD27+ cells as T cell-dependent memory B cells has been hotly debated9 These IgM+ memory B cells do show classical memory cell hallmarks, such as somatically hypermutated V genes, and a recent in depth study of this population has shown that they participate in T celldependent recall responses and show similar transcriptome patterns to the IgM- IgD- CD27+ population. To study memory B cell responses, cells can be cultured ex vivo, allowing for an increase in cell number and activation of these quiescent cells, providing sufficient quantities of each memory subset to enable full investigation of functionality. Despite numerous papers being published demonstrating bulk memory B cell culture, we could find no literature on optimised conditions for the study of memory B cell subsets, such as IgM+ memory B cells. Conclusions: Overall, our data identify a memory B cell culture system that offers a robust platform for investigating the functionality of rare memory B cell subsets to infection and/or vaccination
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