Mi-Jin Kim, Se-Lin Park, Hyun-Jin Kim, Bong Hyun Sung, Jung-Hoon Sohn, Jung-Hoon Bae
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引用次数: 0
摘要
背景:自 1982 年以来,重组胰岛素一直被用作动物胰岛素的替代品。然而,由于医疗和食品行业的需求不断增加,需要开发更高效的生产方法。在本研究中,我们旨在利用酵母分泌系统开发一种新型高效的胰岛素生产方法。方法:在本研究中,胰岛素 C 肽被含有亲和性标签的亲水性融合伙伴(HL18)取代,以促进胰岛素的高分泌和易于纯化。然后通过 Kex2 内切蛋白酶(Kex2p)体外处理去除 HL18 融合伙伴,并通过亲和层析回收真正的胰岛素。为了提高胰岛素的功能,通过组成型表达 HAC1 加强了宿主菌株的分子伴侣蛋白:结果:所开发的方法成功应用于牛胰岛素、猪胰岛素和鸡胰岛素在酵母中的表达。此外,重组胰岛素的生物活性通过细胞系的生长刺激得到了证实:因此,用 HL18 融合伴侣取代胰岛素的 C 肽,并使用 Kex2p 在体外处理原胰岛素,可确保在酵母中经济地生产动物胰岛素。
Functional expression of recombinant insulins in Saccharomyces cerevisiae.
Background: Since 1982, recombinant insulin has been used as a substitute for pancreatic insulin from animals. However, increasing demand in medical and food industries warrants the development of more efficient production methods. In this study, we aimed to develop a novel and efficient method for insulin production using a yeast secretion system.
Methods: Here, insulin C-peptide was replaced with a hydrophilic fusion partner (HL18) containing an affinity tag for the hypersecretion and easy purification of proinsulin. The HL18 fusion partner was then removed by in vitro processing with the Kex2 endoprotease (Kex2p), and authentic insulin was recovered via affinity chromatography. To improve the insulin functions, molecular chaperones of the host strain were reinforced via the constitutive expression of HAC1.
Results: The developed method was successfully applied for the expression of cow, pig, and chicken insulins in yeast. Moreover, biological activity of recombinant insulins was confirmed by growth stimulation of cell line.
Conclusions: Therefore, replacement of the C-peptide of insulin with the HL18 fusion partner and use of Kex2p for in vitro processing of proinsulin guarantees the economic production of animal insulins in yeast.
期刊介绍:
Microbial Cell Factories is an open access peer-reviewed journal that covers any topic related to the development, use and investigation of microbial cells as producers of recombinant proteins and natural products, or as catalyzers of biological transformations of industrial interest. Microbial Cell Factories is the world leading, primary research journal fully focusing on Applied Microbiology.
The journal is divided into the following editorial sections:
-Metabolic engineering
-Synthetic biology
-Whole-cell biocatalysis
-Microbial regulations
-Recombinant protein production/bioprocessing
-Production of natural compounds
-Systems biology of cell factories
-Microbial production processes
-Cell-free systems
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