Application of single-domain antibodies ("nanobodies") to laboratory diagnosis
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Date
Authors
Pillay, Tahir S.
Muyldermans, Serge
Journal Title
Journal ISSN
Volume Title
Publisher
Korean Society for Laboratory Medicine
Abstract
Antibodies have proven to be central in the development of diagnostic methods over decades, moving from polyclonal antibodies to the milestone development of monoclonal
antibodies. Although monoclonal antibodies play a valuable role in diagnosis, their production is technically demanding and can be expensive. The large size of monoclonal antibodies (150 kDa) makes their re-engineering using recombinant methods a challenge.
Single-domain antibodies, such as “nanobodies,” are a relatively new class of diagnostic
probes that originated serendipitously during the assay of camel serum. The immune system of the camelid family (camels, llamas, and alpacas) has evolved uniquely to produce
heavy-chain antibodies that contain a single monomeric variable antibody domain in a
smaller functional unit of 12–15 kDa. Interestingly, the same biological phenomenon is
observed in sharks. Since a single-domain antibody molecule is smaller than a conventional mammalian antibody, recombinant engineering and protein expression in vitro using
bacterial production systems are much simpler. The entire gene encoding such an antibody can be cloned and expressed in vitro. Single-domain antibodies are very stable and
heat-resistant, and hence do not require cold storage, especially when incorporated into a
diagnostic kit. Their simple genetic structure allows easy re-engineering of the protein to
introduce new antigen-binding characteristics or attach labels. Here, we review the applications of single-domain antibodies in laboratory diagnosis and discuss the future potential in this area.
Description
Keywords
Single-domain antibodies, Nanobodies, Monoclonal antibodies, Laboratory diagnosis
Sustainable Development Goals
Citation
Pillay, T.S. & Muyldermans, S. 2020, 'Application of Single-Domain Antibodies
(“Nanobodies”) to Laboratory Diagnosis', Annals of Laboratory Medicine, vol. 41, no. 6, pp. 549-558. https://doi.org/10.3343/alm.2021.41.6.549.