Crystal structures of a llama VHH antibody BCD090-M2 targeting human ErbB3 receptor [version 1; peer review: 1 approved, 1 approved with reservations]

Background: The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer therapy by monoclonal antibodies. Here we report the expression, purification and structural analysis of a new anti-ErbB3 single-chain antib...

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Published in	F1000 research Vol. 7; p. 57
Main Authors	Eliseev, Igor E, Yudenko, Anna N, Vysochinskaya, Vera V, Svirina, Anna A, Evstratyeva, Anna V, Drozhzhachih, Maria S, Krendeleva, Elena A, Vladimirova, Anna K, Nemankin, Timofey A, Ekimova, Viktoria M, Ulitin, Andrey B, Lomovskaya, Maria I, Yakovlev, Pavel A, Bukatin, Anton S, Knyazev, Nickolay A, Moiseenko, Fedor V, Chakchir, Oleg B
Format	Journal Article
Language	English
Published	England 2018
Subjects	Amino Acid Sequence Animals Antibodies, Monoclonal - chemistry Antibodies, Monoclonal - metabolism Camelids, New World - immunology Crystallography, X-Ray Humans Models, Molecular Protein Conformation Receptor, ErbB-3 - immunology Single-Domain Antibodies - chemistry Single-Domain Antibodies - metabolism crystal structure cancer receptor tyrosine kinase therapeutic antibodies nanobody single-domain antibody HER3
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Abstract	Background: The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer therapy by monoclonal antibodies. Here we report the expression, purification and structural analysis of a new anti-ErbB3 single-chain antibody. Methods: The VHH fragment of the antibody was expressed in E. coli SHuffle cells as a SUMO fusion, cleaved by TEV protease and purified to homogeneity. Binding to the extracellular domain of ErbB3 was studied by surface plasmon resonance. For structural studies, the antibody was crystallized by hanging-drop vapor diffusion in two different forms. Results: We developed a robust and efficient system for recombinant expression of single-domain antibodies. The purified antibody was functional and bound ErbB3 with K D = 1 μM. The crystal structures of the VHH antibody in space groups C2 and P1 were solved by molecular replacement at 1.6 and 1.9 Å resolution. The high-quality electron density maps allowed us to build precise atomic models of the antibody and the putative paratope. Surprisingly, the CDR H2 existed in multiple distant conformations in different crystal forms, while the more complex CDR H3 had a low structural variability. The structures were deposited under PDB entry codes 6EZW and 6F0D. Conclusions: Our results may facilitate further mechanistic studies of ErbB3 inhibition by single-chain antibodies. Besides, the solved structures will contribute to datasets required to develop new computational methods for antibody modeling and design.
AbstractList	Background: The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer therapy by monoclonal antibodies. Here we report the expression, purification and structural analysis of a new anti-ErbB3 single-chain antibody. Methods: The VHH fragment of the antibody was expressed in E. coli SHuffle cells as a SUMO fusion, cleaved by TEV protease and purified to homogeneity. Binding to the extracellular domain of ErbB3 was studied by surface plasmon resonance. For structural studies, the antibody was crystallized by hanging-drop vapor diffusion in two different forms. Results: We developed a robust and efficient system for recombinant expression of single-domain antibodies. The purified antibody was functional and bound ErbB3 with K D = 1 μM. The crystal structures of the VHH antibody in space groups C2 and P1 were solved by molecular replacement at 1.6 and 1.9 Å resolution. The high-quality electron density maps allowed us to build precise atomic models of the antibody and the putative paratope. Surprisingly, the CDR H2 existed in multiple distant conformations in different crystal forms, while the more complex CDR H3 had a low structural variability. The structures were deposited under PDB entry codes 6EZW and 6F0D. Conclusions: Our results may facilitate further mechanistic studies of ErbB3 inhibition by single-chain antibodies. Besides, the solved structures will contribute to datasets required to develop new computational methods for antibody modeling and design. Background: The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer therapy by monoclonal antibodies. Here we report the expression, purification and structural analysis of a new anti-ErbB3 single-chain antibody. Methods: The VHH fragment of the antibody was expressed in E. coli SHuffle cells as a SUMO fusion, cleaved by TEV protease and purified to homogeneity. Binding to the extracellular domain of ErbB3 was studied by surface plasmon resonance. For structural studies, the antibody was crystallized by hanging-drop vapor diffusion in two different forms. Results: We developed a robust and efficient system for recombinant expression of single-domain antibodies. The purified antibody was functional and bound ErbB3 with K D = 1 μM. The crystal structures of the VHH antibody in space groups C2 and P1 were solved by molecular replacement at 1.6 and 1.9 Å resolution. The high-quality electron density maps allowed us to build precise atomic models of the antibody and the putative paratope. Surprisingly, the CDR H2 existed in multiple distant conformations in different crystal forms, while the more complex CDR H3 had a low structural variability. The structures were deposited under PDB entry codes 6EZW and 6F0D . Conclusions: Our results may facilitate further mechanistic studies of ErbB3 inhibition by single-chain antibodies. Besides, the solved structures will contribute to datasets required to develop new computational methods for antibody modeling and design. : The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer therapy by monoclonal antibodies. Here we report the expression, purification and structural analysis of a new anti-ErbB3 single-chain antibody. : The VHH fragment of the antibody was expressed in cells as a SUMO fusion, cleaved by TEV protease and purified to homogeneity. Binding to the extracellular domain of ErbB3 was studied by surface plasmon resonance. For structural studies, the antibody was crystallized by hanging-drop vapor diffusion in two different forms. : We developed a robust and efficient system for recombinant expression of single-domain antibodies. The purified antibody was functional and bound ErbB3 with K =15±1 nM. The crystal structures of the VHH antibody in space groups C2 and P1 were solved by molecular replacement at 1.6 and 1.9 Å resolution. The high-quality electron density maps allowed us to build precise atomic models of the antibody and the putative paratope. Surprisingly, the CDR H2 existed in multiple distant conformations in different crystal forms, while the more complex CDR H3 had a low structural variability. The structures were deposited under PDB entry codes 6EZW and 6F0D. : Our results may facilitate further mechanistic studies of ErbB3 inhibition by single-chain antibodies. Besides, the solved structures will contribute to datasets required to develop new computational methods for antibody modeling and design.
Author	Krendeleva, Elena A Vysochinskaya, Vera V Yudenko, Anna N Evstratyeva, Anna V Knyazev, Nickolay A Drozhzhachih, Maria S Yakovlev, Pavel A Nemankin, Timofey A Bukatin, Anton S Moiseenko, Fedor V Svirina, Anna A Chakchir, Oleg B Vladimirova, Anna K Eliseev, Igor E Ulitin, Andrey B Ekimova, Viktoria M Lomovskaya, Maria I
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Keywords	crystal structure cancer receptor tyrosine kinase therapeutic antibodies nanobody single-domain antibody HER3
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Snippet	Background: The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer... : The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in cancer therapy... Background: The ability of ErbB3 receptor to functionally complement ErbB1-2 and induce tumor resistance to their inhibitors makes it a unique target in...
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SubjectTerms	Amino Acid Sequence Animals Antibodies, Monoclonal - chemistry Antibodies, Monoclonal - metabolism Camelids, New World - immunology Crystallography, X-Ray Humans Models, Molecular Protein Conformation Receptor, ErbB-3 - immunology Single-Domain Antibodies - chemistry Single-Domain Antibodies - metabolism
Title	Crystal structures of a llama VHH antibody BCD090-M2 targeting human ErbB3 receptor [version 1; peer review: 1 approved, 1 approved with reservations]
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