Generation and analyses of human synthetic antibody libraries and their application for protein microarrays

Anna Säll; Maria Walle; Christer Wingren; Susanne Müller; Tomas Nyman; Andrea Lages Lino Vala; Mats Ohlin; Carl A K Borrebaeck; Helena Persson

doi:10.1093/protein/gzw042

Generation and analyses of human synthetic antibody libraries and their application for protein microarrays

Anna Säll, Maria Walle, Christer Wingren, Susanne Müller, Tomas Nyman, Andrea Lages Lino Vala, Mats Ohlin, Carl A K Borrebaeck, Helena Persson

Protein Production and Characterization Platform

19 Citations (Scopus)

Abstract

Antibody-based proteomics offers distinct advantages in the analysis of complex samples for discovery and validation of biomarkers associated with disease. However, its large-scale implementation requires tools and technologies that allow development of suitable antibody or antibody fragments in a high-throughput manner. To address this we designed and constructed two human synthetic antibody fragment (scFv) libraries denoted HelL-11 and HelL-13. By the use of phage display technology, in total 466 unique scFv antibodies specific for 114 different antigens were generated. The specificities of these antibodies were analyzed in a variety of immunochemical assays and a subset was further evaluated for functionality in protein microarray applications. This high-throughput approach demonstrates the ability to rapidly generate a wealth of reagents not only for proteome research, but potentially also for diagnostics and therapeutics. In addition, this work provides a great example on how a synthetic approach can be used to optimize library designs. By having precise control of the diversity introduced into the antigen-binding sites, synthetic libraries offer increased understanding of how different diversity contributes to antibody binding reactivity and stability, thereby providing the key to future library optimization.

Original language	English
Journal	Protein Engineering Design and Selection (Print)
Volume	29
Issue number	10
Pages (from-to)	427-37
Number of pages	11
ISSN	1741-0126
DOIs	https://doi.org/10.1093/protein/gzw042
Publication status	Published - 1 Oct 2016

Keywords

Journal Article

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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AU - Säll, Anna

AU - Walle, Maria

AU - Wingren, Christer

AU - Müller, Susanne

AU - Nyman, Tomas

AU - Lages Lino Vala, Andrea

AU - Ohlin, Mats

AU - Borrebaeck, Carl A K

AU - Persson, Helena

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N2 - Antibody-based proteomics offers distinct advantages in the analysis of complex samples for discovery and validation of biomarkers associated with disease. However, its large-scale implementation requires tools and technologies that allow development of suitable antibody or antibody fragments in a high-throughput manner. To address this we designed and constructed two human synthetic antibody fragment (scFv) libraries denoted HelL-11 and HelL-13. By the use of phage display technology, in total 466 unique scFv antibodies specific for 114 different antigens were generated. The specificities of these antibodies were analyzed in a variety of immunochemical assays and a subset was further evaluated for functionality in protein microarray applications. This high-throughput approach demonstrates the ability to rapidly generate a wealth of reagents not only for proteome research, but potentially also for diagnostics and therapeutics. In addition, this work provides a great example on how a synthetic approach can be used to optimize library designs. By having precise control of the diversity introduced into the antigen-binding sites, synthetic libraries offer increased understanding of how different diversity contributes to antibody binding reactivity and stability, thereby providing the key to future library optimization.

AB - Antibody-based proteomics offers distinct advantages in the analysis of complex samples for discovery and validation of biomarkers associated with disease. However, its large-scale implementation requires tools and technologies that allow development of suitable antibody or antibody fragments in a high-throughput manner. To address this we designed and constructed two human synthetic antibody fragment (scFv) libraries denoted HelL-11 and HelL-13. By the use of phage display technology, in total 466 unique scFv antibodies specific for 114 different antigens were generated. The specificities of these antibodies were analyzed in a variety of immunochemical assays and a subset was further evaluated for functionality in protein microarray applications. This high-throughput approach demonstrates the ability to rapidly generate a wealth of reagents not only for proteome research, but potentially also for diagnostics and therapeutics. In addition, this work provides a great example on how a synthetic approach can be used to optimize library designs. By having precise control of the diversity introduced into the antigen-binding sites, synthetic libraries offer increased understanding of how different diversity contributes to antibody binding reactivity and stability, thereby providing the key to future library optimization.

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Generation and analyses of human synthetic antibody libraries and their application for protein microarrays

Abstract

Keywords

UN SDGs

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