脱氧鬼臼毒素对美洲大蠊的毒力及几种酶系的影响

采用药膜法测试了脱氧鬼臼毒素对美洲大蠊Periplaneta americana初孵若虫的触杀活性,并测定了其对成虫中枢神经系统乙酰胆碱酯酶（AChE）和腺苷三磷酸酶(ATPase)离体活性的影响。结果表明：脱氧鬼臼毒素对美洲大蠊初孵若虫具有较强的毒杀活性,在接触时间24、48、72和96 h 的LC₅₀分别为26.26、4.68、1.51和0.62 μg/cm²;其对AChE没有明显影响; 对Na⁺ -K⁺ -ATPase有明显抑制作用,并存在浓度 效应关系,IC₅₀为44.9 μmol/L; 对Ca²⁺-Mg²⁺-ATPase表现出低剂量激活,高剂量抑制的现象。结果提示美洲大蠊的AChE不是脱氧鬼臼毒素靶标,而ATPase可能是脱氧鬼臼毒素的重要靶标之一。     

桔小实蝇烟碱型乙酰胆碱受体β亚基基因的克隆及mRNA表达分析

烟碱型乙酰胆碱受体(nicotinic acetylcholine receptor,nAChR)在昆虫中枢神经系统的递质传递过程中起着重要作用。本研究采用RT-PCR和RACE技术,从桔小实蝇Bactrocera dorsalis(Hendel)体内克隆获得nAChRβ亚基的cDNA序列,命名为Bdβ3(GenBank登录号:JF974074)。测序结果表明,Bdβ3的cDNA序列全长1602bp,开放阅读框为1287bp,编码429个氨基酸残基,预测蛋白质分子量和等电点分别为48.8ku和5.81。通过对氨基酸同源性分析表明,Bdβ3具有nAChR亚基的典型特征,与其他昆虫nAChR亚基具有较高的氨基酸相似性,与黑腹果蝇nAChRβ3亚基具有49.78%的相似性。Bdβ3在桔小实蝇的不同发育时期和成虫的不同体段的实时定量PCR结果表明,Bdβ3在整个发育阶段均有表达,其中在成虫期的表达水平最高,这可能与Bdβ3主要在成虫期发挥作用有关;Bdβ3在桔小实蝇头部表达量最高,显著高于胸部和腹部。研究结果为深入分析桔小实蝇nAChR亚基的功能以及对多杀菌素的靶标抗性机制提供了基础数据。     

四种鬼臼毒素类似物对美洲大蠊腹神经索动作电位的作用

为了解鬼臼毒素对昆虫神经系统的影响,采用胞外记录电生理方法观察了4种鬼臼毒素类似物对美洲大蠊Periplaneta americana 中枢神经自发放动作电位的影响。结果显示: 在0.1 mmol/L的浓度下,4种物质对美洲大蠊中枢神经自发放动作电位的作用不同。脱氧鬼臼毒素可完全抑制美洲大蠊中枢神经自发放动作电位的产生,其抑制作用可逆;β-阿朴苦鬼臼毒素对美洲大蠊中枢神经自发放动作电位的作用是先兴奋后抑制;鬼臼毒素对美洲大蠊中枢神经自发放动作电位有抑制作用,其抑制作用不完全;4′-去甲鬼臼毒素对大蠊中枢神经自发放动作电位无影响。结果提示,4种鬼臼毒素类似物对昆虫中枢神经自发放动作电位的影响方式与其结构官能团密切相关。     

基于RNA-seq分析美洲大蠊提取物对结直肠癌细胞信号通路的影响

美洲大蠊Periplaneta americana提取物能够抑制多种肿瘤细胞生长,甚至能使肿瘤细胞发生凋亡,但是其对结直肠癌细胞信号通路的影响尚不清楚。本文基于RNA-seq技术初步分析了美洲大蠊提取物联合顺铂处理结直肠癌细胞后,细胞内信号通路的变化。结果表明:30μM顺铂和0.6%康复新液联合处理组与对照组相比,共有1 901个差异基因,其中1 555个基因表达上调,346个基因表达下调;30μM顺铂和0.8%精粉酵解液联合处理组与对照组比,共有2 587个差异基因,其中2 183个基因表达上调,404个基因表达下调;30μM顺铂和100μg·m L-1精粉联合处理组与对照组相比,共有1 488个差异基因,其中1 164个基因表达上调,324个基因表达下调。用WEGO和DAVID进行差异基因的GO和KEGG富集分析发现,美洲大蠊提取物联合顺铂处理组与对照组相比,表达上调的差异基因主要富集在p53、细胞粘附分子、MAPK、细胞凋亡等信号通路;表达下调的差异基因主要富集在氨基酰-tRNA生物合成、氨基酸生物合成、抗生素生物合成、一碳代谢等信号通路。     

美洲大蠊胸腺素THY3的表达模式分析

美洲大蠊Periplaneta americana胸腺素基因具有THY1、THY2和THY3三个不同剪接体,其中THY3结构域最多。本研究使用实时荧光定量PCR技术比较分析了THY3在美洲大蠊不同性别、不同发育阶段及不同组织中的表达差异,以及大肠杆菌Escherichia coli诱导对美洲大蠊血淋巴和脂肪体中THY3表达的影响。结果表明:THY3在成虫期的表达量显著高于其他虫期,雌虫表达量显著高于雄虫,脂肪体表达量显著高于血淋巴、头部、肌肉、体壁组织。雌性成虫体腔注射大肠杆菌3 h后血淋巴中THY3表达量显著增高,而在脂肪体中12 h后才检测到THY3表达明显上调,研究结果为进一步研究美洲大蠊胸腺素的功能打下了基础。     

钙离子对乙酰胆碱受体通道脱敏的影响

Ｎ型乙酰胆碱受体通道的脱敏表现为通道开放概率的衰减,而通道开放时间和开放电流的变化水大,提示脱敏是全或无的,当「Ｃａ＾２＋」０＝１２．０ｍｍｏｌ／Ｌ时,脱敏５０％约用时１１．５分钟;「Ｃａ＾２＋」０＝０ｍｍｏｌ／Ｌ时,脱敏５０％药用时１．８分钟。证明在钙离子浓度较低的情况下,Ｎ型乙酰胆碱受体通道的脱敏较快,而下离子浓度较高时,通道脱敏慢,提示钙离子对通道从脱敏态到静息态的恢复有促进作用,并且对钙离     

美洲大蠊变应原Pera2的生物信息学分析

目的:了解美洲大蠊变应原Per a 2的分子生物学特征。方法:从Genbank中获得Per a 2的核酸序列,用ExPaSy、EBI和NCBI网站的在线软件推导出编码氨基酸序列及其理化性质、空间结构、功能位点,并在Blastp比对后选择不同物种同源序列计算相似率、构建分子进化树。结果:Pera2由351个氨基酸细戍,分子量为38119Da、等电点为4.90、分子式为C1217H1825N285O297S18,为细胞外疏水性蛋白、属于肽酶a家族,信号肽位于1～20氨基酸处,三个跨膜螺旋区域依次位于1～19aa、51～78aa、282～300aa处;二级结构由α-螺旋(9.4%)、β延伸(28.49%)、随机线圈(62.11%)组成;美洲大蠊和德国小蠊相似率为55%、与马德拉蜚蠊相似率为51%,三者在Pera2与不同物种的同源序列构建的分子进化树中聚成一簇。结论:通过对Per a 2的生物信息学分析获得了该变应原分子特征,为进一步研究奠定基础。     

美洲大蠊变应原Per a 2的生物信息学分析

目的：了解美洲大蠊变应原Per a 2的分子生物学特征。方法：从Genbank中获得Per a 2的核酸序列,用ExPaSy、EBI和NCBI网站的在线软件推导出编码氨基酸序列及其理化性质、空间结构、功能位点,并在Blastp比对后选择不同物种同源序列计算井刖双率、构建分子进化树。结果：Per a 2由351个氨基酸细戍,分子量为38119Da、等电点为490、分子式为C1217H1825N285O297S18,为细胞外疏水性蛋白、属于肽酶a家族,信号肽位于1～20氨基酸处,三个跨膜螺旋区域依次位于1～19aa、51～78aa、282～300aa处;二级结构由α-螺旋（9．4％）、β延伸（28．49％）、随机线圈（62．11％）组成;美洲大蠊和德国小蠊相似率为55％、与马德拉蜚蠊相似率为51％,三者在Per a 2与不同物种的同源序列构建的分子进化树中聚成一簇。结论：通过对Per a 2的生物信息学分析获得了该变应原分子特征．为进一步研究奠定基础。     

混配杀虫剂对美洲大蠊初孵若虫乙酰胆碱酯酶的活体in vivo抑制

研究了美洲大蠊初孵若虫乙酰胆碱酯酶（AChE）的最佳反应条件：蛋白含量40—50μg,pH7．4,底物浓度0．5mmol／L,反应温度37℃,保温时间15分钟。动力学参数Km和Vmax分别为5．64×10-4mol／L和55．5nmol／（min·mgprotein）。分析了顺式、反式氯氰菊酯与辛硫磷、马拉硫磷或毒死蜱以1：10比例混配对AChE的活体抑制。结果表明混配均能增强对AChE的抑制,其中顺式优于反式,与生测结果一致。认为拟除虫菊酯和有机磷混配增效的重要原因之一是提高了对靶标酶——AChE的抑制。     

麦长管蚜烟碱型乙酰胆碱受体基因的克隆和序列分析

昆虫烟碱型乙酰胆碱受体(nicotinic acetylcholine receptor, nAChR)是杀虫剂的重要作用靶标之一。本研究利用简并引物PCR和半巢式PCR技术从麦长管蚜Sitobion avenae (Fabricius)中克隆nAChR基因,成功地获得了5个α型nAChR亚基的cDNA片段。根据5个α亚基片段设计特异引物,结合快速扩增cDNA末端(RACE)技术,成功克隆了5个α型亚基的全长,并发现α5亚基有两种存在形式,它们仅在胞外区有一段175 bp的片段有差异。序列分析发现,这些基因均具有nAChR基因家族的典型特征,并与已报道的其他昆虫的烟碱型乙酰胆碱受体的相应亚基具有很高的同源性。该研究为进一步利用基因表达技术研究昆虫nAChR的天然亚基组成,以及分析麦长管蚜对新烟碱类杀虫剂的靶标抗性,奠定了基础。     

Dbeta3, an atypical nicotinic acetylcholine receptor subunit from Drosophila : molecular cloning, heterologous expression and coassembly

Insect nicotinic acetylcholine receptors (nAChRs) play a central role in mediating neuronal synaptic transmission and are the target sites for the increasingly important group of neonicotinoid insecticides. Six nicotinic acetylcholine receptor (nAChR) subunits (four alpha-type and two beta-type) have been cloned previously from the model insect species Drosophila melanogaster. Despite extensive efforts, it has not been possible to generate functional recombinant nAChRs by heterologous expression of any combination of these six subunits. It has, however, been possible to express functional hybrid receptors when Drosophila alpha subunits are co-expressed with vertebrate beta subunits. This has led to the assumption that successful heterologous expression might require an, as yet, uncloned beta-type insect subunit. Examination of the recently completed Drosophila genomic sequence data has identified a novel putative nAChR beta-type subunit. Here we report the molecular cloning, heterologous expression and characterization of this putative Drosophila nAChR subunit (Dbeta3). Phylogenetic comparisons with other ligand-gated ion channel subunit sequences support its classification as a nAChR subunit but show it to be a distantly related member of this neurotransmitter receptor subunit family. Evidence that the Dbeta3 subunit is able to coassemble with other Drosophila nAChR subunits and contribute to recombinant nAChRs has been obtained by both radioligand binding and coimmunoprecipitation studies in transfected Drosophila S2 cells.     

Sphingolipids are necessary for nicotinic acetylcholine receptor export in the early secretory pathway

The nicotinic acetylcholine receptor (AChR) is the prototype ligand-gated ion channel, and its function is dependent on its lipid environment. In order to study the involvement of sphingolipids (SL) in AChR trafficking, we used pharmacological approaches to dissect the SL biosynthetic pathway in CHO-K1/A5 cells heterologously expressing the muscle-type AChR. When SL biosynthesis was impaired, the cell surface targeting of AChR diminished with a concomitant increase in the intracellular receptor pool. The SL-inhibiting drugs increased unassembled AChR forms, which were retained at the endoplasmic reticulum (ER). These effects on AChR biogenesis and trafficking could be reversed by the addition of exogenous SL, such as sphingomyelin. On the basis of these effects we propose a 'chaperone-like' SL intervention at early stages of the AChR biosynthetic pathway, affecting both the efficiency of the assembly process and subsequent receptor trafficking to the cell surface.     

Fate of a bacteriophage in Aedes aegypti, Anopheles quadrimaculatus (Diptera: Culicidae), and Periplaneta americana (Orthoptera: Blattidae)

The viability of a bacteriophage of Escherichia coli was unaffected by injection into the hemocoel of the mosquitoes, Aedes aegypti and Anopheles quadrimaculatus, but was reduced by injection into the cockroach, Periplaneta americana. Treatment of the cockroach with India ink, known to be phagocytized in the cockroach hemocoel, did not block the reduction of phage viability. Phage viability was unaffected by incubation with gut homogenates of A. aegypti but was possibly affected by homogenates of P. americana.     

棉铃虫齿唇姬蜂嗅觉受体基因 CchlOrco 的克隆及组织表达谱分析

【目的】昆虫的嗅觉受体（olfactory receptors, ORs）一般以气味分子特异的ORs与共受体（ co-Receptor, Orco）通过形成异质二聚体在嗅觉感受中发挥关键作用,其中Orco由于具有序列的保守性而受到广泛的重视。本研究旨在克隆棉铃虫齿唇姬蜂 Campoletis chlorideae 的Orco基因,并对其组织表达谱进行分析。【方法】利用RT-PCR技术和转录组分析技术克隆棉铃虫齿唇姬蜂的Orco基因,并对其编码的氨基酸序列进行生物信息学分析;利用Real-time PCR技术对该基因在该蜂成虫不同组织中的表达量进行分析。【结果】获得了棉铃虫齿唇姬蜂 Orco 的全长cDNA序列,命名为 CchlOrco（GenBank登录号：KP255444）。序列分析表明, 该基因开放阅读框全长1 437 bp,编码478个氨基酸,预测该氨基酸序列具有7个跨膜区。CchlOrco 主要在成虫触角中表达,且在雄蜂触角中的表达量最高,是雌蜂触角中表达量的8.0倍,而在其他组织中表达量极低。【结论】本研究克隆了棉铃虫齿唇姬蜂 CchlOrco 序列全长,明确了其在成虫不同组织中的表达水平,为进一步研究该基因及其他嗅觉受体基因功能奠定了基础。     

A nicotinic acetylcholine receptor mutation (Y151S) causes reduced agonist potency to a range of neonicotinoid insecticides

Neonicotinoid insecticides are potent selective agonists of insect nicotinic acetylcholine receptors (nAChRs). Since their introduction in 1991, resistance to neonicotinoids has been slow to develop, but it is now established in some insect field populations such as the planthopper, Nilaparvata lugens, a major rice pest in many parts of Asia. We have reported recently the identification of a target-site mutation (Y151S) within two nAChR subunits (Nlalpha1 and Nlalpha3) from a laboratory-selected field population of N. lugens. In the present study, we have examined the influence of this mutation upon the functional properties of recombinant nAChRs expressed in Xenopus oocytes (as hybrid nAChRs, co-expressed with a rat beta2 subunit). The agonist potency of several nicotinic agonists has been examined, including all of the neonicotinoid insecticides that are currently licensed for either crop protection or animal health applications (acetamiprid, clothianidin, dinotefuran, imidacloprid, nitenpyram, thiacloprid and thiamethoxam). The Y151S mutation was found to have no significant effect on the maximal current (I(max)) observed with the endogenous agonist, acetylcholine. In contrast, a significant reduction in I(max) was observed for all neonicotinoids (the I(max) for mutant nAChRs ranged from 13 to 81% of that observed on wild-type receptors). In addition, nAChRs containing the Y151S mutation caused a significant rightward shift in agonist dose-response curves for all neonicotinoids, but of varying magnitude (shifts in EC(50) values ranged from 1.3 to 3.6-fold). The relationship between neonicotinoid structure and their potency on nAChRs containing the Y151S target-site mutation is discussed.     

miRNAome analysis of the mammalian neuronal nicotinic acetylcholine receptor gene family

Nicotine binds to and activates a family of ligand-gated ion channels, neuronal nicotinic acetylcholine receptors (nAChRs). Chronic nicotine exposure alters the expression of various nAChR subtypes, which likely contributes to nicotine dependence; however, the underlying mechanisms regulating these changes remain unclear. A growing body of evidence indicates that microRNAs (miRNAs) may be involved in nAChR regulation. Using bioinformatics, miRNA library screening, site-directed mutagenesis, and gene expression analysis, we have identified a limited number of miRNAs that functionally interact with the 3′-untranslated regions (3′ UTRs) of mammalian neuronal nAChR subunit genes. In silico analyses revealed specific, evolutionarily conserved sites within the 3′ UTRs through which the miRNAs regulate gene expression. Mutating these sites disrupted miRNA regulation confirming the in silico predictions. In addition, the miRNAs that target nAChR 3′ UTRs are expressed in mouse brain and are regulated by chronic nicotine exposure. Furthermore, we show that expression of one of these miRNAs, miR-542-3p, is modulated by nicotine within the mesocorticolimbic reward pathway. Importantly, overexpression of miR-542-3p led to a decrease in the protein levels of its target, the nAChR β2 subunit. Bioinformatic analysis suggests that a number of the miRNAs play a general role in regulating cholinergic signaling. Our results provide evidence for a novel mode of nicotine-mediated regulation of the mammalian nAChR gene family.