Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System

Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System

The striking innovation and clinical success of immune checkpoint inhibitors (ICIs) have undoubtedly contributed to a breakthrough in cancer immunotherapy. Generally, ICIs produced in mammalian cells requires high investment, production costs, and involves time consuming procedures. Recently, the pl...

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Main Authors: Tanapati Phakham, Christine Joy I. Bulaon, Narach Khorattanakulchai, Balamurugan Shanmugaraj, Supranee Buranapraditkun, Chatikorn Boonkrai, Sarintip Sooksai, Nattiya Hirankarn, Yoshito Abe, Richard Strasser, Kaewta Rattanapisit, Waranyoo Phoolcharoen
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-09-01
Series:Frontiers in Plant Science
Subjects:
Nicotiana benthamiana
molecular farming
transient expression
cancer immunotherapy
anti-PD-1 antibody
Pembrolizumab
Online Access:https://www.frontiersin.org/articles/10.3389/fpls.2021.736299/full
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language English
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author Tanapati Phakham
Tanapati Phakham
Christine Joy I. Bulaon
Christine Joy I. Bulaon
Narach Khorattanakulchai
Narach Khorattanakulchai
Balamurugan Shanmugaraj
Supranee Buranapraditkun
Supranee Buranapraditkun
Chatikorn Boonkrai
Chatikorn Boonkrai
Sarintip Sooksai
Nattiya Hirankarn
Yoshito Abe
Richard Strasser
Kaewta Rattanapisit
Waranyoo Phoolcharoen
Waranyoo Phoolcharoen
spellingShingle Tanapati Phakham
Tanapati Phakham
Christine Joy I. Bulaon
Christine Joy I. Bulaon
Narach Khorattanakulchai
Narach Khorattanakulchai
Balamurugan Shanmugaraj
Supranee Buranapraditkun
Supranee Buranapraditkun
Chatikorn Boonkrai
Chatikorn Boonkrai
Sarintip Sooksai
Nattiya Hirankarn
Yoshito Abe
Richard Strasser
Kaewta Rattanapisit
Waranyoo Phoolcharoen
Waranyoo Phoolcharoen
Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System
Frontiers in Plant Science
Nicotiana benthamiana
molecular farming
transient expression
cancer immunotherapy
anti-PD-1 antibody
Pembrolizumab
author_facet Tanapati Phakham
Tanapati Phakham
Christine Joy I. Bulaon
Christine Joy I. Bulaon
Narach Khorattanakulchai
Narach Khorattanakulchai
Balamurugan Shanmugaraj
Supranee Buranapraditkun
Supranee Buranapraditkun
Chatikorn Boonkrai
Chatikorn Boonkrai
Sarintip Sooksai
Nattiya Hirankarn
Yoshito Abe
Richard Strasser
Kaewta Rattanapisit
Waranyoo Phoolcharoen
Waranyoo Phoolcharoen
author_sort Tanapati Phakham
title Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System
title_short Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System
title_full Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System
title_fullStr Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System
title_full_unstemmed Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression System
title_sort functional characterization of pembrolizumab produced in nicotiana benthamiana using a rapid transient expression system
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2021-09-01
description The striking innovation and clinical success of immune checkpoint inhibitors (ICIs) have undoubtedly contributed to a breakthrough in cancer immunotherapy. Generally, ICIs produced in mammalian cells requires high investment, production costs, and involves time consuming procedures. Recently, the plants are considered as an emerging protein production platform due to its cost-effectiveness and rapidity for the production of recombinant biopharmaceuticals. This study explored the potential of plant-based system to produce an anti-human PD-1 monoclonal antibody (mAb), Pembrolizumab, in Nicotiana benthamiana. The transient expression of this mAb in wild-type N. benthamiana accumulated up to 344.12 ± 98.23 μg/g fresh leaf weight after 4 days of agroinfiltration. The physicochemical and functional characteristics of plant-produced Pembrolizumab were compared to mammalian cell-produced commercial Pembrolizumab (Keytruda®). Sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and western blot analysis results demonstrated that the plant-produced Pembrolizumab has the expected molecular weight and is comparable with the Keytruda®. Structural characterization also confirmed that both antibodies have no protein aggregation and similar secondary and tertiary structures. Furthermore, the plant-produced Pembrolizumab displayed no differences in its binding efficacy to PD-1 protein and inhibitory activity between programmed cell death 1 (PD-1) and programmed cell death ligand 1 (PD-L1) interaction with the Keytruda®. In vitro efficacy for T cell activation demonstrated that the plant-produced Pembrolizumab could induce IL-2 and IFN-γ production. Hence, this proof-of-concept study showed that the plant-production platform can be utilized for the rapid production of functional mAbs for immunotherapy.
topic Nicotiana benthamiana
molecular farming
transient expression
cancer immunotherapy
anti-PD-1 antibody
Pembrolizumab
url https://www.frontiersin.org/articles/10.3389/fpls.2021.736299/full
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spelling doaj-4f30ab7d642e457f8e5f8b886945bb9e2021-09-09T11:40:50ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2021-09-011210.3389/fpls.2021.736299736299Functional Characterization of Pembrolizumab Produced in Nicotiana benthamiana Using a Rapid Transient Expression SystemTanapati Phakham0Tanapati Phakham1Christine Joy I. Bulaon2Christine Joy I. Bulaon3Narach Khorattanakulchai4Narach Khorattanakulchai5Balamurugan Shanmugaraj6Supranee Buranapraditkun7Supranee Buranapraditkun8Chatikorn Boonkrai9Chatikorn Boonkrai10Sarintip Sooksai11Nattiya Hirankarn12Yoshito Abe13Richard Strasser14Kaewta Rattanapisit15Waranyoo Phoolcharoen16Waranyoo Phoolcharoen17Interdisciplinary Program of Biomedical Sciences, Graduate School, Chulalongkorn University, Bangkok, ThailandCenter of Excellence in Systems Biology, Faculty of Medicine, Chulalongkorn University, Bangkok, ThailandDepartment of Pharmacognosy and Pharmaceutical Botany, Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok, ThailandPlant-Produced Pharmaceutical Research Unit, Chulalongkorn University, Bangkok, ThailandDepartment of Pharmacognosy and Pharmaceutical Botany, Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok, ThailandPlant-Produced Pharmaceutical Research Unit, Chulalongkorn University, Bangkok, ThailandBaiya Phytopharm Co., Ltd., Bangkok, ThailandDepartment of Microbiology, Faculty of Medicine, Center of Excellence in Immunology and Immune-Mediated Diseases, Chulalongkorn University, Bangkok, ThailandCenter of Excellence in Vaccine Research and Development (Chula Vaccine Research Center-Chula VRC), Faculty of Medicine, Chulalongkorn University, Bangkok, ThailandInterdisciplinary Program of Biomedical Sciences, Graduate School, Chulalongkorn University, Bangkok, ThailandCenter of Excellence in Systems Biology, Faculty of Medicine, Chulalongkorn University, Bangkok, ThailandThe Institute of Biotechnology and Genetic Engineering, Chulalongkorn University, Bangkok, ThailandDepartment of Microbiology, Faculty of Medicine, Center of Excellence in Immunology and Immune-Mediated Diseases, Chulalongkorn University, Bangkok, ThailandDepartment of Pharmaceutical Sciences, School of Pharmacy at Fukuoka, International University of Health and Welfare, Okawa, Japan0Department of Applied Genetics and Cell Biology, University of Natural Resources and Life Sciences, Vienna, AustriaBaiya Phytopharm Co., Ltd., Bangkok, ThailandDepartment of Pharmacognosy and Pharmaceutical Botany, Faculty of Pharmaceutical Sciences, Chulalongkorn University, Bangkok, ThailandPlant-Produced Pharmaceutical Research Unit, Chulalongkorn University, Bangkok, ThailandThe striking innovation and clinical success of immune checkpoint inhibitors (ICIs) have undoubtedly contributed to a breakthrough in cancer immunotherapy. Generally, ICIs produced in mammalian cells requires high investment, production costs, and involves time consuming procedures. Recently, the plants are considered as an emerging protein production platform due to its cost-effectiveness and rapidity for the production of recombinant biopharmaceuticals. This study explored the potential of plant-based system to produce an anti-human PD-1 monoclonal antibody (mAb), Pembrolizumab, in Nicotiana benthamiana. The transient expression of this mAb in wild-type N. benthamiana accumulated up to 344.12 ± 98.23 μg/g fresh leaf weight after 4 days of agroinfiltration. The physicochemical and functional characteristics of plant-produced Pembrolizumab were compared to mammalian cell-produced commercial Pembrolizumab (Keytruda®). Sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and western blot analysis results demonstrated that the plant-produced Pembrolizumab has the expected molecular weight and is comparable with the Keytruda®. Structural characterization also confirmed that both antibodies have no protein aggregation and similar secondary and tertiary structures. Furthermore, the plant-produced Pembrolizumab displayed no differences in its binding efficacy to PD-1 protein and inhibitory activity between programmed cell death 1 (PD-1) and programmed cell death ligand 1 (PD-L1) interaction with the Keytruda®. In vitro efficacy for T cell activation demonstrated that the plant-produced Pembrolizumab could induce IL-2 and IFN-γ production. Hence, this proof-of-concept study showed that the plant-production platform can be utilized for the rapid production of functional mAbs for immunotherapy.https://www.frontiersin.org/articles/10.3389/fpls.2021.736299/fullNicotiana benthamianamolecular farmingtransient expressioncancer immunotherapyanti-PD-1 antibodyPembrolizumab

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