Production of Human IFNγ Protein in Nicotiana benthamiana Plant through an Enhanced Expression System Based on Bamboo mosaic Virus

Plant-based systems are safe alternatives to the current platforms for the production of biologically active therapeutic proteins. However, plant-based expression systems face certain major challenges, including the relatively low productivity and the generation of target proteins in biologically ac...

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Bibliographic Details
Published in:Viruses 2019-06, Vol.11 (6), p.509
Main Authors: Jiang, Min-Chao, Hu, Chung-Chi, Lin, Na-Sheng, Hsu, Yau-Heiu
Format: Article
Language:English
Subjects:
Amino acid sequence
Amino acids
bamboo mosaic virus
Biological activity
Biotechnology - methods
Coat protein
E coli
Efficiency
Endoplasmic reticulum
Enzymes
ER retention
Expression vectors
Genetic Engineering - methods
Genetic Vectors - genetics
interferon gamma
Interferon-gamma - analysis
Interferon-gamma - biosynthesis
Interferon-gamma - chemistry
Medical research
Movement protein
Nicotiana - virology
Nicotiana benthamiana
Pharmaceuticals
Plant viruses
Polypeptides
potexvirus
Potexvirus - genetics
Protein expression
Protein folding
Proteins
Recombinant Proteins - biosynthesis
therapeutic protein
Vectors (Biology)
Viruses
γ-Interferon
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Summary:Plant-based systems are safe alternatives to the current platforms for the production of biologically active therapeutic proteins. However, plant-based expression systems face certain major challenges, including the relatively low productivity and the generation of target proteins in biologically active forms. The use of plant virus-based expression systems has been shown to enhance yields, but further improvement is still required to lower the production cost. In this study, various strategies were employed to increase the yields of an important therapeutic protein, human interferon gamma (IFNγ), in through modifications of expression vectors based on potexviruses. Among these, the vector based on a coat protein (CP)-deficient (BaMV), pKB△C , was shown to exhibit the highest expression level for the unmodified IFNγ. Truncation of the N-terminal signal peptide of IFN (designated mIFNγ) resulted in a nearly seven-fold increase in yield. Co-expression of a silencing suppressor protein by replacing the coding sequence of BaMV movement protein with that of P19 led to a 40% increase in mIFNγ accumulation. The fusion of endoplasmic reticulum (ER) retention signal with mIFNγ significantly enhanced the accumulation ratio of biologically active dimeric mIFNγ to 87% relative to the non-active monomeric form. The construct pKB19mIFNγER, employing the combination of all the above enhancement strategies, gave the highest level of protein accumulation, up to 119 ± 0.8 μg/g fresh weight, accounting for 2.5% of total soluble protein (TSP) content. These findings advocate the application of the modified BaMV-based vector as a platform for high-level expression of therapeutic protein in .
ISSN:1999-4915
1999-4915
DOI:10.3390/v11060509