A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy

Rationale: T-cell-redirecting bispecific antibodies (bsAbs) and trispecific antibodies (tsAbs) designed to recognize different epitopes or antigens have emerged as promising cancer therapies. Current approaches are all designed to include another antibody specific to the site of the primary antibody...

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Autores principales: Liu, Dong, Qi, Xuexiu, Wei, Xiaoyi, Zhao, Lijun, Wang, Xuechun, Li, Shuhong, Wang, Zhidong, Shi, Licai, Xu, Jiean, Hong, Mei, Liu, Zhong, Zhao, Lili, Wang, Xiankun, Zhang, Bo, Zhang, Yuhan, Wang, Feng, Cao, Yu J.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Ivyspring International Publisher 2022
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9706591/
https://www.ncbi.nlm.nih.gov/pubmed/36451856
http://dx.doi.org/10.7150/thno.75037
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author Liu, Dong
Qi, Xuexiu
Wei, Xiaoyi
Zhao, Lijun
Wang, Xuechun
Li, Shuhong
Wang, Zhidong
Shi, Licai
Xu, Jiean
Hong, Mei
Liu, Zhong
Zhao, Lili
Wang, Xiankun
Zhang, Bo
Zhang, Yuhan
Wang, Feng
Cao, Yu J.
author_facet Liu, Dong
Qi, Xuexiu
Wei, Xiaoyi
Zhao, Lijun
Wang, Xuechun
Li, Shuhong
Wang, Zhidong
Shi, Licai
Xu, Jiean
Hong, Mei
Liu, Zhong
Zhao, Lili
Wang, Xiankun
Zhang, Bo
Zhang, Yuhan
Wang, Feng
Cao, Yu J.
author_sort Liu, Dong
collection PubMed
description Rationale: T-cell-redirecting bispecific antibodies (bsAbs) and trispecific antibodies (tsAbs) designed to recognize different epitopes or antigens have emerged as promising cancer therapies. Current approaches are all designed to include another antibody specific to the site of the primary antibody, and the molecular structures are generally established. However, the dimensions of target molecule and epitope location play a key role in the efficiency of the immunological synapse (IS) formation and subsequent T-cell-redirecting activities, therefore the connection flexibility of these antibodies determines the geometries of different formats of these molecules and will have a major impact on the efficacy. Methods: We describe a novel recombination strategy using various linker designs to site-specifically fuse anti-Her2 (2Rs15) or anti-VEGFR2 (3VGR19) nanobodies to different positions of the anti-CD3 antibody fragment (Fab, SP34). Based on the comparison among the various antigen-specific bsAbs, we could determine the desired fusion site of each nanobody to SP34, and further ensure the optimal structure of tsAbs with synergistic dual-antigen enhanced T-cell-redirecting activities. Results: This approach allows precise control of the formation of IS between Her2- and/or VEGFR2-expressing cancer cells and T cells, to obtain the optimal structure of the Her2/VEGFR2/CD3 tsAb without the need to map antibody-binding epitopes. Optimization of Her2/VEGFR2/CD3 tsAb results in enhanced T-cell-redirecting in vitro and in vivo antitumor efficacy compared with the corresponding bsAbs alone or in combination, and the potency to overcome tumor relapse due to antigen escape or resistance to Herceptin and Cyramza therapy. Conclusion: The novel design strategy for developing tsAbs using a site-specific recombination approach represents a promising platform for immuno-oncology and in applications other than cancer therapy.
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spelling pubmed-97065912022-11-29 A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy Liu, Dong Qi, Xuexiu Wei, Xiaoyi Zhao, Lijun Wang, Xuechun Li, Shuhong Wang, Zhidong Shi, Licai Xu, Jiean Hong, Mei Liu, Zhong Zhao, Lili Wang, Xiankun Zhang, Bo Zhang, Yuhan Wang, Feng Cao, Yu J. Theranostics Research Paper Rationale: T-cell-redirecting bispecific antibodies (bsAbs) and trispecific antibodies (tsAbs) designed to recognize different epitopes or antigens have emerged as promising cancer therapies. Current approaches are all designed to include another antibody specific to the site of the primary antibody, and the molecular structures are generally established. However, the dimensions of target molecule and epitope location play a key role in the efficiency of the immunological synapse (IS) formation and subsequent T-cell-redirecting activities, therefore the connection flexibility of these antibodies determines the geometries of different formats of these molecules and will have a major impact on the efficacy. Methods: We describe a novel recombination strategy using various linker designs to site-specifically fuse anti-Her2 (2Rs15) or anti-VEGFR2 (3VGR19) nanobodies to different positions of the anti-CD3 antibody fragment (Fab, SP34). Based on the comparison among the various antigen-specific bsAbs, we could determine the desired fusion site of each nanobody to SP34, and further ensure the optimal structure of tsAbs with synergistic dual-antigen enhanced T-cell-redirecting activities. Results: This approach allows precise control of the formation of IS between Her2- and/or VEGFR2-expressing cancer cells and T cells, to obtain the optimal structure of the Her2/VEGFR2/CD3 tsAb without the need to map antibody-binding epitopes. Optimization of Her2/VEGFR2/CD3 tsAb results in enhanced T-cell-redirecting in vitro and in vivo antitumor efficacy compared with the corresponding bsAbs alone or in combination, and the potency to overcome tumor relapse due to antigen escape or resistance to Herceptin and Cyramza therapy. Conclusion: The novel design strategy for developing tsAbs using a site-specific recombination approach represents a promising platform for immuno-oncology and in applications other than cancer therapy. Ivyspring International Publisher 2022-11-14 /pmc/articles/PMC9706591/ /pubmed/36451856 http://dx.doi.org/10.7150/thno.75037 Text en © The author(s) https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/). See http://ivyspring.com/terms for full terms and conditions.
spellingShingle Research Paper
Liu, Dong
Qi, Xuexiu
Wei, Xiaoyi
Zhao, Lijun
Wang, Xuechun
Li, Shuhong
Wang, Zhidong
Shi, Licai
Xu, Jiean
Hong, Mei
Liu, Zhong
Zhao, Lili
Wang, Xiankun
Zhang, Bo
Zhang, Yuhan
Wang, Feng
Cao, Yu J.
A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy
title A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy
title_full A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy
title_fullStr A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy
title_full_unstemmed A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy
title_short A Novel Her2/VEGFR2/CD3 trispecific antibody with an optimal structural design showed improved T-cell-redirecting antitumor efficacy
title_sort novel her2/vegfr2/cd3 trispecific antibody with an optimal structural design showed improved t-cell-redirecting antitumor efficacy
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9706591/
https://www.ncbi.nlm.nih.gov/pubmed/36451856
http://dx.doi.org/10.7150/thno.75037
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