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Abstract
Antigen-specific memory B cells generate anamnestic responses and high affinity antibodies upon re-exposure to pathogens. Attempts to isolate rare antigen-specific memory B cells for in-depth functional analysis at the single-cell level have been hindered by the lack of tools with adequate sensitivity. We applied two independent methods of protein labeling to sensitive and specific ex vivo identification of antigen-specific memory B cells by flow cytometry: stringently controlled amine labeling, and sortagging, a novel method whereby a single nucleophilic fluorochrome molecule is added onto an LPETG motif carried by the target protein. We show that sortagged NadA, a major antigen in the meningococcal serogroup B vaccine, identifies NadA-specific memory B cells with high sensitivity and specificity, comparable to NadA amine-labeled under stringent reaction parameters in a mouse model of vaccination. We distinguish NadA-specific switched MBC induced by vaccination from the background signal contributed by splenic transitional and marginal zone B cells. In conclusion, we demonstrate that protein structural data coupled with sortag technology allows the development of engineered antigens that are as sensitive and specific as conventional chemically labeled antigens in detecting rare MBC, and minimize the possibility of disrupting conformational B cell epitopes.
Highlights
Antigen-specific memory B cells generate anamnestic responses and high affinity antibodies upon re-exposure to bacterial and viral pathogens
We describe two independent methods to fluorescently label protein antigens: conventional amine labeling with stringently controlled reaction parameters, and sortagging, a novel site-specific labeling method mediated by staphylococcal sortase A, in which a known number of nucleophilic fluorochrome molecules are added to LPTEG motifs expressed on the target proteins [10]
Neisseria adhesin A (NadA) equipped with the LPETG sortagging recognition motif followed by a C-terminal HA and His(6) affinity handle were expressed and purified from Escherichia coli
Summary
Antigen-specific memory B cells generate anamnestic responses and high affinity antibodies upon re-exposure to bacterial and viral pathogens. It is likely that both the quality and the size of the memory B cell pool are important determinants of the overall protective response to infection and/or vaccination. An alternative strategy has been to use fluorescently labeled proteins to identify antigen-specific MBC from mice and humans for qualitative analysis by flow cytometry [5, 7]. Low signal to noise ratio is often observed due to low memory B cell frequencies and high background due to the fluorochrome itself [8, 9]
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