New Rare Antibody Isolation Strategy
Credit: Alejandro Porto.
A strategy for rapidly isolating rare, naturally occurring antibodies is reported this week in a study published in Communications Biology, a new selective, open access journal from Nature Research. The strategy could aid in developing biological therapeutics and vaccines in the future.
During an infection, B cells (a type of white blood cell) produce antibodies against specific fragments, called antigens, present on a pathogen. B cells producing antibodies that successfully recognize an antigen will remain in the total pool of an individual’s antibodies, called their B cell repertoire, at very low levels long after the infection has passed. Naturally produced antibodies could be a potential source of drugs to treat diseases; however, identifying specific antibodies from a pool of possibly billions of B cells is extremely challenging, and existing methods for selecting antibodies are expensive and labour-intensive.
Saravanan Rajan and colleagues developed a new strategy for identifying rare antibodies from large pools of human B cells. By using a glass microfluidic chip that can generate evenly sized, microscopic water droplets the authors loaded each droplet with a single B cell from a healthy donor. Using this strategy, one million B cells can be individually encapsulated in droplets within 40 minutes. The new approach allows researchers to select and purify antigen-specific antibodies within four weeks from an initial pool of millions of B cells encoding naturally occurring antibodies.
The authors used their system to screen for antibodies able to recognize multiple subtypes of the influenza virus. This approach led to the identification of seven rare antibodies that existing strategies would be unlikely to detect. The authors believe this approach will be useful for developing therapeutics in the future, particularly for rapidly spreading or emerging infections.
This article has been republished from materials provided by Nature Research. Note: material may have been edited for length and content. For further information, please contact the cited source.
Recombinant human B cell repertoires enable screening for rare, specific, and natively paired antibodies. Saravanan Rajan, Michael R. Kierny, Andrew Mercer, Jincheng Wu, Andrey Tovchigrechko, Herren Wu, William F. Dall′Acqua, Xiaodong Xiao & Partha S. Chowdhury. Communications Biology 1, Article number: 5 (2018) DOI 10.1038/s42003-017-0006-2.
Stem Cell Study May Result in Stronger Muscles in Old AgeNews
A new study by researchers at Karolinska Institutet shows how an unexpectedly high number of mutations in the stem cells of muscles impair cell regeneration.READ MORE
scNMT-seq Allows Analysis of Connections Between Nucleosomes, Methylation and TranscriptionNews
A new bioinformatics technique allows researchers to study three key processes inside the cell simultaneously.READ MORE
Human Malaria Parasites Grown for the First Time in Dormant FormNews
One of the biggest obstacles to eradicating malaria is a dormant form of the parasite which is resistant to most antimalarial drugs and can reawaken years later, causing disease relapse. Researchers have shown they can grow the dormant parasite in engineered human liver tissue for several weeks, allowing them to closely study how the parasite becomes dormant, what vulnerabilities it may have, and how it springs back to life.READ MORE