通过分子建模分析节肢动物驱虫剂与嗅觉受体和离子受体的相互作用

IF 2.2 Q1 ENTOMOLOGY Current Research in Insect Science Pub Date : 2024-01-01 DOI:10.1016/j.cris.2024.100082
Robert Renthal
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引用次数: 0

摘要

昆虫的主要化学感受器有嗅觉受体(ORs)、味觉受体(GRs)和离子受体(IRs)。根据跳跃刚毛尾虫Machilis hrabei的嗅觉受体5(MhraOR5)的三维结构,以及对人工智能(A.I.)建模获得的醋蝇(Drosophila melanogaster)嗅觉受体结构样本的调查,许多昆虫嗅觉受体的气味结合位点似乎被封闭,无法从受体蛋白表面进入。分子动力学模拟显示,闭锁位点可以通过瞬时打开和关闭的隧道进入。本研究对这一分析进行了扩展,研究了 17 种 OR 和一种 GR 与已知价态配体的对接情况:其中 9 种配体发出吸引信号,9 种发出厌恶信号。除一种受体外,所有受体都显示出与 MhraOR5 类似的配体结合闭锁位点,对接软件预测已知的吸引和排斥配体将与闭锁位点结合。对驱避剂DEET的对接进行了研究,结果发现一半以上的OR配体位点都会与DEET结合,其中包括发出厌恶信号的受体和发出吸引信号的受体。然而,DEET 实际上可能无法进入所有吸引剂的结合位点。驱避剂分子体积较大,柔韧性较差,可能会限制它们通过隧道瓶颈,而隧道瓶颈可以作为过滤器,选择进入配体结合位点。与 ORs 和 GRs 不同的是,IR 配体结合位点位于一个细胞外结构域中,众所周知,从开放状态到封闭状态会发生很大的构象变化。通过计算测试了两个已知配价的D. melanogaster IRs和两个未知配体的黑脚蜱(Ixodes scapularis)IRs的吸引和排斥结合的A.I. 模型。闭合状态下的配体结合位点似乎无法接近蛋白质表面,因此吸引剂和排斥剂必须首先与开放状态下的可接近位点结合,然后才能触发构象变化。在一些 IR 中,在配体结合位点附近的外部位点发现了排斥结合位点。这些位点可能是异构位点,当被排斥物占据时,可以稳定吸引IR的开放状态,或者在没有激活配体的情况下稳定IR的封闭状态。黑腹黑蝇 IR64a 的模型提出了 H+ 激活该 IR 的可能分子机制。这一机制所涉及的氨基酸在多种双翅目害虫和病媒的 IR64a 中都是保守的,这可能为发现通过异构位点起作用的新驱虫剂提供了一条途径。
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Arthropod repellent interactions with olfactory receptors and ionotropic receptors analyzed by molecular modeling

The main insect chemoreceptors are olfactory receptors (ORs), gustatory receptors (GRs) and ionotropic receptors (IRs). The odorant binding sites of many insect ORs appear to be occluded and inaccessible from the surface of the receptor protein, based on the three-dimensional structure of OR5 from the jumping bristletail Machilis hrabei (MhraOR5) and a survey of a sample of vinegar fly (Drosophila melanogaster) OR structures obtained from artificial intellegence (A.I.) modeling. Molecular dynamics simulations revealed that the occluded site can become accessible through tunnels that transiently open and close. The present study extends this analysis to examine seventeen ORs and one GR docking with ligands that have known valence: nine that signal attraction and nine that signal aversion. All but one of the receptors displayed occluded ligand binding sites analogous to MhraOR5, and docking software predicted the known attractant and repellent ligands will bind to the occluded sites. Docking of the repellent DEET was examined, and more than half of the OR ligand sites were predicted to bind DEET, including receptors that signal aversion as well as those that signal attraction. However, DEET may not actually have access to all the attractant binding sites. The larger size and lower flexibility of repellent molecules may restrict their passage through the tunnel bottlenecks, which could act as filters to select access to the ligand binding sites. In contrast to ORs and GRs, the IR ligand binding site is in an extracellular domain known to undergo a large conformational change from an open to a closed state. A.I. models of two D. melanogaster IRs of known valence and two blacklegged tick (Ixodes scapularis) IRs having unknown ligands were computationally tested for attractant and repellent binding. The ligand-binding sites in the closed state appear inaccessible to the protein surface, so attractants and repellents must bind initially at an accessible site in the open state before triggering the conformational change. In some IRs, repellent binding sites were identified at exterior sites adjacent to the ligand-binding site. These may be allosteric sites that, when occupied by repellents, can stabilize the open state of an attractant IR, or stabilize the closed state of an IR in the absence of its activating ligand. The model of D. melanogaster IR64a suggests a possible molecular mechanism for the activation of this IR by H+. The amino acids involved in this proposed mechanism are conserved in IR64a from several Dipteran pest species and disease vectors, potentially offering a route to discovery of new repellents that act via the allosteric site.

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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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