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Honing-in antigen-specific cells during antibody discovery: a user-friendly process to mine a deeper repertoire.

Ankit MahendraAftabul HaquePonraj PrabakaranBrian C MacknessThomas P FullerXiaohua LiuSagar V KathuriaYui-Hsi WangNilesh AmatyaXiaocong YuJoern HopkeDietmar HoffmannEva Bric-FurlongNingning ZhangHyun-Suk ChoRuijun ZhangJose SanchoJacqueline SalehSambasiva P RaoMaria WendtPartha S Chowdhury
Published in: Communications biology (2022)
Immunization based antibody discovery is plagued by the paucity of antigen-specific B cells. Identifying these cells is akin to finding needle in a haystack. Current and emerging technologies while effective, are limited in terms of capturing the antigen-specific repertoire. We report on the bulk purification of antigen-specific B-cells and the benefits it offers to various antibody discovery platforms. Using five different antigens, we show hit rates of 51-88%, compared to about 5% with conventional methods. We also show that this purification is highly efficient with loss of only about 2% antigen specific cells. Furthermore, we compared clones in which cognate chains are preserved with those from display libraries in which chains either from total B cells (TBC) or antigen-specific B cells (AgSC) underwent combinatorial pairing. We found that cognate chain paired clones and combinatorial clones from AgSC library had higher frequency of functional clones and showed greater diversity in sequence and paratope compared to clones from the TBC library. This antigen-specific B-cell selection technique exemplifies a process improvement with reduced cycle time and cost, by removing undesired clones prior to screening and increasing the chance of capturing desirable and rare functional clones in the repertoire.
Keyphrases
  • induced apoptosis
  • highly efficient
  • high throughput
  • signaling pathway
  • oxidative stress
  • dendritic cells
  • cell proliferation