通过槲皮素修饰对昆虫源性过敏原PLA2进行解毒：分子模拟与动物验证

Detoxification of Insect-Derived Allergen PLA2 via Quercetin Modification: Molecular Simulation and Animal Validation.

作者信息

Li Fukai, Wu Liming, Wang Min, Zhou Enning, Pan Fei, Zhou Jian, Yang Mengrui, Wang Tongtong, Li Liang, Li Qiangqiang

机构信息

Institute of Quality Standard and Testing Technology for Agro-Products, Chinese Academy of Agricultural Sciences (CAAS), Beijing 100081, China.

State Key Laboratory of Resource Insects, Institute of Apicultural Research, Chinese Academy of Agricultural Sciences (CAAS), Beijing 100093, China.

出版信息

Nutrients. 2025 Sep 4;17(17):2872. doi: 10.3390/nu17172872.

DOI:10.3390/nu17172872

PMID:40944260

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12430299/

Abstract

BACKGROUND

Insect-derived proteins constitute an underutilized biological resource requiring urgent exploration to address global food protein shortages. However, their widespread application is hindered by the allergenic potential, particularly phospholipase A2 (PLA2), a highly immunoreactive allergen prevalent in edible insects such as ants and honeybees.

OBJECTIVE

This study systematically investigated the molecular mechanism underlying quercetin-mediated reduction in PLA2 allergenicity, aiming to establish a novel strategy for developing hypoallergenic insect protein resources.

METHODS AND RESULTS

Through integrated computational and experimental approaches, we identified quercetin's dual non-covalent and covalent binding capabilities with PLA2. Molecular docking revealed robust interactions (the binding energy of -6.49 kcal/mol) within the catalytic pocket. Meanwhile, mass spectrometry specifically identified Cys37 as the covalent modification site, which can bind to quercetin and increase the gyration radius (Rg) of PLA2 within 75-125 ns. Molecular dynamics simulations illustrated quercetin-induced conformational changes affecting critical antigenic epitopes. Murine experiments further confirmed that quercetin-modified PLA2 exhibited significantly reduced IgE reactivity and allergic responses compared to native PLA2, as demonstrated by assessments of anaphylactic behavior, histopathological changes, and measurements of serum IgE antibody and biogenic amine levels.

CONCLUSIONS

Collectively, these findings provide a transformative approach to safely utilize insect-derived proteins for sustainable nutrition solutions.

摘要

背景

昆虫源蛋白质是一种未得到充分利用的生物资源，迫切需要加以探索以应对全球食物蛋白质短缺问题。然而，它们的广泛应用受到潜在过敏原的阻碍，尤其是磷脂酶A2（PLA2），这是一种高度免疫反应性的过敏原，在蚂蚁和蜜蜂等可食用昆虫中普遍存在。

目的

本研究系统地探究了槲皮素介导降低PLA2过敏原性的分子机制，旨在建立一种开发低过敏性昆虫蛋白质资源的新策略。

方法与结果

通过综合计算和实验方法，我们确定了槲皮素与PLA2具有非共价和共价结合的双重能力。分子对接显示在催化口袋内存在强烈相互作用（结合能为-6.49 kcal/mol）。同时，质谱明确鉴定出Cys37为共价修饰位点，其可与槲皮素结合并在75 - 125 ns内增加PLA2的回转半径（Rg）。分子动力学模拟表明槲皮素诱导的构象变化影响关键抗原表位。小鼠实验进一步证实，与天然PLA2相比，槲皮素修饰的PLA2表现出显著降低的IgE反应性和过敏反应，这通过过敏行为评估、组织病理学变化以及血清IgE抗体和生物胺水平测量得以证明。

结论

总体而言，这些发现为安全利用昆虫源蛋白质以实现可持续营养解决方案提供了一种变革性方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/acb6/12430299/07609058edaa/nutrients-17-02872-g001.jpg

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通过槲皮素修饰对昆虫源性过敏原PLA2进行解毒：分子模拟与动物验证

Detoxification of Insect-Derived Allergen PLA2 via Quercetin Modification: Molecular Simulation and Animal Validation.

作者信息

机构信息

出版信息

BACKGROUND

OBJECTIVE

METHODS AND RESULTS

CONCLUSIONS

背景

目的

方法与结果

结论

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