An ovalbumin fusion strategy to increase recombinant protein secretion in chicken eggs.

IF 5.7 3区生物学 Q1 BIOCHEMICAL RESEARCH METHODS Journal of Biological Engineering Pub Date : 2024-01-11 DOI:10.1186/s13036-023-00390-4

Long Xie, Zhenwen Huang, Meiyu Lan, Yaqi Cao, Lingling Sun, Lang Zhang, Erwei Zuo, Yangqing Lu

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Abstract

Maternal secretion of recombinant proteins into chicken eggs may provide a viable approach for pharmaceutical production but remains limited by poor secretion efficiency through the membrane of oviduct cells, despite high expression levels. Here, we used site-specific integration of an EGFP fused to the OVAL gene by a rigid linker, (EAAAK)₃, at the endogenous ovalbumin locus in chicken primordial germ cells to generate OVAL-E3-EGFP transgenic chickens, with transgenic chickens expressing CMV immediate enhancer/β-actin-driven EGFP (CAG-EGFP) as a non-secreted control. In OVAL-E3-EGFP chickens, EGFP protein produced in maternal oviducts accumulates to high levels in eggs, but not in eggs of CAG-EGFP chickens. These results indicated that the secretion of foreign proteins can be substantially increased through fusion to the highly secreted endogenous ovalbumin. This study describes a basis for high yield recombinant protein expression in chicken eggs, enabling rapid and scalable production of numerous pharmaceutical proteins or metabolites.

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卵清蛋白融合策略可提高重组蛋白在鸡卵中的分泌量。

母体向鸡卵中分泌重组蛋白可为药物生产提供一种可行的方法，但尽管表达水平很高，通过输卵管细胞膜的分泌效率仍然很低。在这里，我们在鸡原始生殖细胞的内源性卵清蛋白基因座上通过刚性连接子（EAAAK）3将EGFP与OVAL基因进行位点特异性整合，产生了OVAL-E3-EGFP转基因鸡，并以表达CMV即时增强子/β-肌动蛋白驱动的EGFP（CAG-EGFP）的转基因鸡作为非分泌对照。在 OVAL-E3-EGFP 鸡中，母体输卵管产生的 EGFP 蛋白在鸡蛋中积累到很高的水平，而在 CAG-EGFP 鸡的鸡蛋中则没有。这些结果表明，通过与高分泌的内源性卵清蛋白融合，外来蛋白的分泌量可大幅增加。这项研究为在鸡卵中高产表达重组蛋白奠定了基础，从而可快速、规模化地生产多种药物蛋白或代谢物。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biological Engineering BIOCHEMICAL RESEARCH METHODS-BIOTECHNOLOGY & APPLIED MICROBIOLOGY

CiteScore

7.10

自引率

1.80%

发文量

审稿时长

17 weeks

期刊介绍： Biological engineering is an emerging discipline that encompasses engineering theory and practice connected to and derived from the science of biology, just as mechanical engineering and electrical engineering are rooted in physics and chemical engineering in chemistry. Topical areas include, but are not limited to: Synthetic biology and cellular design Biomolecular, cellular and tissue engineering Bioproduction and metabolic engineering Biosensors Ecological and environmental engineering Biological engineering education and the biodesign process As the official journal of the Institute of Biological Engineering, Journal of Biological Engineering provides a home for the continuum from biological information science, molecules and cells, product formation, wastes and remediation, and educational advances in curriculum content and pedagogy at the undergraduate and graduate-levels. Manuscripts should explore commonalities with other fields of application by providing some discussion of the broader context of the work and how it connects to other areas within the field.