Yao Zhang, Nadiyah Alqazlan, Zihe Meng, Jingyao Zhao, Nan Liu, Yuxin Zhang, Mingfeng Feng, Shengwu Ma, Aoxue Wang
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引用次数: 0
摘要
白细胞介素-37是一种新发现的细胞因子,在抑制先天炎症和获得性免疫中起关键作用。我们最近在植物中表达了人IL-37b的成熟形式(mat-)和前形式,并证明尽管两种形式的植物制造的IL-37b都具有功能,但pmat-hIL37b的活性明显高于pro-IL-37b。另一方面,与ppro-hIL-37b相比,pmat-hIL-37b的表达量明显较低(100.5µg vs 1.05µg/g鲜叶质量或1% vs 0.01% TSP)。由于ppro-hIL-37b与pmat-hIL-37b的区别在于ppro-hIL-37b含有一个植物细胞无法切割的信号序列,我们推断该信号序列将在稳定ppro-hIL-37b蛋白中发挥关键作用。在这里,我们描述了一种新的方法,通过在信号肽和成熟的hIL-37b之间结合编码烟草蚀刻病毒(TEV)蛋白酶的基因序列,包括在TEV蛋白酶的c端有一个TEV切割位点,来增强植物中pmat1 -hIL-37b的产生。其原理是,当作为sp-TEV-matIL-37b融合蛋白表达时,亲hil -37b信号肽的稳定特性将被授予其融合伙伴,从而提高靶蛋白的产量。融合蛋白随后有望在体内自我切割,产生成熟的pmat-hIL-37b。事实上,当sp- tev - mil -37b融合基因在稳定转化的植株中表达时,检测到二聚体pmat-hIL-37b对应的显著条带,在最佳表达系中表达量达到42.5µg/g鲜叶质量。生物实验表明,植物成熟的pmat-hIL-37b具有功能性。
A novel approach to achieving more efficient production of the mature form of human IL-37 in plants.
Interleukin-37 is a newly discovered cytokine that plays a pivotal role in suppressing innate inflammation and acquired immunity. We have recently expressed both the mature(mat-) and pro-forms of human IL-37b in plants and demonstrated that while both forms of the plant-made hIL-37b are functional, pmat-hIL37b exhibited significantly greater activity than ppro-IL-37b. Compared to ppro-hIL-37b, on the other hand, the expression level of pmat-hIL-37b was substantially lower (100.5 µg versus 1.05 µg/g fresh leaf mass or 1% versus 0.01% TSP). Since the difference between ppro-hIL-37b and pmat-hIL-37b is that ppro-hIL-37b contains a signal sequence not cleavable by plant cells, we reasoned that this signal sequence would play a key role in stabilizing the ppro-hIL-37b protein. Here, we describe a novel approach to enhancing pmat-hIL-37b production in plants based on incorporation of a gene sequence encoding tobacco etch virus (TEV) protease between the signal peptide and the mature hIL-37b, including a TEV cleavage site at the C-termini of TEV protease. The rationale is that when expressed as a sp-TEV-matIL-37b fusion protein, the stabilizing properties of the signal peptide of pro-hIL-37b will be awarded to its fusion partners, resulting in increased yield of target proteins. The fusion protein is then expected to cleave itself in vivo to yield a mature pmat-hIL-37b. Indeed, when a sp-TEV-matIL-37b fusion gene was expressed in stable-transformed plants, a prominent band corresponding to dimeric pmat-hIL-37b was detected, with expression yields reaching 42.5 µg/g fresh leaf mass in the best expression lines. Bioassays demonstrated that plant-made mature pmat-hIL-37b is functional.
期刊介绍:
Transgenic Research focusses on transgenic and genome edited higher organisms. Manuscripts emphasizing biotechnological applications are strongly encouraged. Intellectual property, ethical issues, societal impact and regulatory aspects also fall within the scope of the journal. Transgenic Research aims to bridge the gap between fundamental and applied science in molecular biology and biotechnology for the plant and animal academic and associated industry communities.
Transgenic Research publishes
-Original Papers
-Reviews:
Should critically summarize the current state-of-the-art of the subject in a dispassionate way. Authors are requested to contact a Board Member before submission. Reviews should not be descriptive; rather they should present the most up-to-date information on the subject in a dispassionate and critical way. Perspective Reviews which can address new or controversial aspects are encouraged.
-Brief Communications:
Should report significant developments in methodology and experimental transgenic higher organisms