Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System

TNFα is one of the initial and important mediators to activate downstream signaling pathways by binding to trimerized TNFα receptors (TNFR), and thus is an ideal drug target for cancer therapy. Taking advantage of intrinsic homotimerization of the globular domain of adiponectin (gAD), we have develo...

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Autores principales: Cai, Qinzhen, Zhao, Ai, Yuting Yin, Ma, Lisha, Jiao, Zhenzhen, Zhi, Huilin, Lai, Shouhua, Cheng, Sha, Yang, Hongmei, Lu, Yinxiang, Siminovitch, Katherine A., Gao, Jimin
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4207793/
https://www.ncbi.nlm.nih.gov/pubmed/25340707
http://dx.doi.org/10.1371/journal.pone.0111229
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author Cai, Qinzhen
Zhao, Ai
Yuting Yin,
Ma, Lisha
Jiao, Zhenzhen
Zhi, Huilin
Lai, Shouhua
Cheng, Sha
Yang, Hongmei
Lu, Yinxiang
Siminovitch, Katherine A.
Gao, Jimin
author_facet Cai, Qinzhen
Zhao, Ai
Yuting Yin,
Ma, Lisha
Jiao, Zhenzhen
Zhi, Huilin
Lai, Shouhua
Cheng, Sha
Yang, Hongmei
Lu, Yinxiang
Siminovitch, Katherine A.
Gao, Jimin
author_sort Cai, Qinzhen
collection PubMed
description TNFα is one of the initial and important mediators to activate downstream signaling pathways by binding to trimerized TNFα receptors (TNFR), and thus is an ideal drug target for cancer therapy. Taking advantage of intrinsic homotimerization of the globular domain of adiponectin (gAD), we have developed a novel TNFα antagonist, the trimerized fusion protein named sTNFRII-gAD. However, our previously-used CHO expression system yielded less than 10 mg/L of sTNFRII-gAD. To produce large quantities of sTNFRII-gAD efficiently, we used a modified CHO-S cell expression system, which is based on a pMH3 vector with non-coding GC-rich DNA fragments for high-level gene expression. We obtained stable clones that produced 75 mg/L of sTNFRII-gAD in the 96-well plate, adapted the clones to 40 ml suspension serum-free batch culture, then optimized the culturing conditions to scale up the fed-batch culture in a 3 L shake-flask and finally in a 5 L AP30 bioreactor. We achieved a final yield of 52 mg/L of sTNFRII-gAD. The trimerized sTNFRII-gAD exhibited the higher affinity to TNFα with a dissociation constant (Kd) of 5.63 nM than the dimerized sTNFRII-Fc with a Kd of 13.4 nM, and further displayed the higher TNFα-neutralizing activity than sTNFRII-Fc (p<0.05) in a L929 cytotoxicity assay. Therefore, the strategy employed in this study may provide an efficient avenue for large-scale production of other recombinant proteins by use of the modified CHO-S cell expression system.
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spelling pubmed-42077932014-10-27 Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System Cai, Qinzhen Zhao, Ai Yuting Yin, Ma, Lisha Jiao, Zhenzhen Zhi, Huilin Lai, Shouhua Cheng, Sha Yang, Hongmei Lu, Yinxiang Siminovitch, Katherine A. Gao, Jimin PLoS One Research Article TNFα is one of the initial and important mediators to activate downstream signaling pathways by binding to trimerized TNFα receptors (TNFR), and thus is an ideal drug target for cancer therapy. Taking advantage of intrinsic homotimerization of the globular domain of adiponectin (gAD), we have developed a novel TNFα antagonist, the trimerized fusion protein named sTNFRII-gAD. However, our previously-used CHO expression system yielded less than 10 mg/L of sTNFRII-gAD. To produce large quantities of sTNFRII-gAD efficiently, we used a modified CHO-S cell expression system, which is based on a pMH3 vector with non-coding GC-rich DNA fragments for high-level gene expression. We obtained stable clones that produced 75 mg/L of sTNFRII-gAD in the 96-well plate, adapted the clones to 40 ml suspension serum-free batch culture, then optimized the culturing conditions to scale up the fed-batch culture in a 3 L shake-flask and finally in a 5 L AP30 bioreactor. We achieved a final yield of 52 mg/L of sTNFRII-gAD. The trimerized sTNFRII-gAD exhibited the higher affinity to TNFα with a dissociation constant (Kd) of 5.63 nM than the dimerized sTNFRII-Fc with a Kd of 13.4 nM, and further displayed the higher TNFα-neutralizing activity than sTNFRII-Fc (p<0.05) in a L929 cytotoxicity assay. Therefore, the strategy employed in this study may provide an efficient avenue for large-scale production of other recombinant proteins by use of the modified CHO-S cell expression system. Public Library of Science 2014-10-23 /pmc/articles/PMC4207793/ /pubmed/25340707 http://dx.doi.org/10.1371/journal.pone.0111229 Text en © 2014 Cai et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Cai, Qinzhen
Zhao, Ai
Yuting Yin,
Ma, Lisha
Jiao, Zhenzhen
Zhi, Huilin
Lai, Shouhua
Cheng, Sha
Yang, Hongmei
Lu, Yinxiang
Siminovitch, Katherine A.
Gao, Jimin
Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System
title Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System
title_full Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System
title_fullStr Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System
title_full_unstemmed Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System
title_short Efficient Production of sTNFRII-gAD Fusion Protein in Large Quantity by Use of the Modified CHO-S Cell Expression System
title_sort efficient production of stnfrii-gad fusion protein in large quantity by use of the modified cho-s cell expression system
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4207793/
https://www.ncbi.nlm.nih.gov/pubmed/25340707
http://dx.doi.org/10.1371/journal.pone.0111229
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