Lack of signal peptide in insect prophenoloxidase to avoid glycosylation to damage the zymogen activity

IF 2.7 3区 农林科学 Q1 FISHERIES Developmental and comparative immunology Pub Date : 2024-07-17 DOI:10.1016/j.dci.2024.105230
Kai Wu , Bing Yang , Rongbing Chen , Rafia Majeed , Baoling Li , Liyuan Gong , Xuefei Wei , Jingfeng Yang , Yingyu Tang , Aibin Wang , Shahzad Toufeeq , Haq Abdul Shaik , Wuren Huang , Xuan Guo , Erjun Ling
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Abstract

Insect prophenoloxidases (PPOs) are important immunity proteins for defending against the invading pathogens and parasites. As a Type-Ⅲ copper-containing proteins, unlike Homo sapiens tyrosinases, the insect PPOs and most bacterial tyrosinases contain no signal peptides for unknown reason, however they can still be released. To this end, we fused different signal peptides to Drosophila melanogaster PPOs for in vitro and in vivo expression, respectively. We demonstrate that an artificial signal peptide can help PPO secretion in vitro. The secreted PPO appeared larger than wild-type PPO on molecular weight sizes due to glycosylation when expressed in S2 cells. Two asparagine residues for potential glycosylation in PPO1 were identified when a signal peptide was fused. After purification, the glycosylated PPO1 lost zymogen activity. When PPO1 containing a signal peptide was over-expressed in Drosophila larvae, the glycosylation and secretion of PPO1 was detected in vivo. Unlike insect PPO, human tyrosinase needs a signal peptide for protein expression and maintaining enzyme activity. An artificial signal peptide fused to bacterial tyrosinase had no influence on the protein expression and enzyme activity. These Type-Ⅲ copper-containing proteins from different organisms may evolve to perform their specific functions. Intriguingly, our study revealed that the addition of calcium inhibits PPO secretion from the transiently cultured larval hindguts in vitro, indicating that the calcium concentration may regulate PPO secretion. Taken together, insect PPOs can maintain enzyme activities without any signal peptide.

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昆虫丙醇氧化酶中缺乏信号肽,以避免糖基化破坏酶原活性。
昆虫丙醇氧化酶(PPOs)是抵御病原体和寄生虫入侵的重要免疫蛋白。作为一种Ⅲ型含铜蛋白,与智人的酪氨酸酶不同,昆虫的 PPO 和大多数细菌的酪氨酸酶都不含信号肽,原因不明,但它们仍然可以释放信号肽。为此,我们将不同的信号肽与黑腹果蝇PPO融合,分别用于体外和体内表达。我们证明,人工信号肽有助于PPO的体外分泌。在 S2 细胞中表达时,由于糖基化作用,分泌的 PPO 在分子量大小上比野生型 PPO 大。融合信号肽后,PPO1 中两个天冬酰胺残基可能被糖基化。纯化后,糖基化的 PPO1 失去了酶原活性。当果蝇幼虫过度表达含有信号肽的 PPO1 时,在体内检测到了 PPO1 的糖基化和分泌。与昆虫 PPO 不同,人类酪氨酸酶需要信号肽来表达蛋白并保持酶活性。与细菌酪氨酸酶融合的人工信号肽对蛋白表达和酶活性没有影响。这些来自不同生物的Ⅲ型含铜蛋白可能是在进化过程中实现其特定功能的。耐人寻味的是,我们的研究发现,添加钙可抑制体外瞬时培养的幼虫后肠分泌 PPO,这表明钙浓度可能调控 PPO 的分泌。综上所述,昆虫 PPO 可在没有任何信号肽的情况下保持酶活性。
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
CiteScore
6.20
自引率
6.90%
发文量
206
审稿时长
49 days
期刊介绍: Developmental and Comparative Immunology (DCI) is an international journal that publishes articles describing original research in all areas of immunology, including comparative aspects of immunity and the evolution and development of the immune system. Manuscripts describing studies of immune systems in both vertebrates and invertebrates are welcome. All levels of immunological investigations are appropriate: organismal, cellular, biochemical and molecular genetics, extending to such fields as aging of the immune system, interaction between the immune and neuroendocrine system and intestinal immunity.
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