神经递质释放与家蝇对拟除虫菊酯抗性关系研究

通过生物测定比较溴氰菊酯、氯菊酯和DDT对Dec-R,2C1-R,DDT-R和敏感(SP)家蝇Musca domestica vicina的毒力,表明三个抗性品系对溴氰菊酯、氯菊酯和DDT均有很高的抗性,抗性倍数分别达120 912,6 032和112.2倍,并对上述三种杀虫剂有明显的交互抗性和抗击倒效应。杂交试验表明Dec-R对溴氰菊酯的抗性是一个隐性基因,电生理试验表明抗性家蝇中枢神经系统(CNS)对药剂敏感度的降低是其产生抗性和交互抗性的重要机制。研究结果表明Dec-R和2CLR家蝇品系中存在有击倒抗性因子(Kdr)。当用1×10^-7mol/L溴氰菊酯对SP家蝇脑突触体在提高K+浓度去极化后,可加强3H-胆碱的释放,而在Dec-R品系中,溴氰菊酯浓度提高到1×10^-4m0l/L也未能加强³H-胆碱的释放,表明溴氰菊酯与神经递质的释放和钠通道亲和性的降低是抗性的主要机制。     

神经递质3H-去甲肾上腺素释放与家蝇对拟除虫菊酯抗性的关系

在用K⁺去极化条件下,研究了溴氰菊酯和氯菊酯分别对敏感、抗溴氰菊酯和抗氯菊酯家蝇Musca domestica 品系脑突触体释放神经递质去甲肾上腺素的影响。结果表明：在用K⁺去极化后,神经递质去甲肾上腺素的释放在抗溴氰菊酯和抗氯菊酯家蝇品系中比敏感品系分别下降47.0%和51.0%;当用10^-5 mol/L溴氰菊酯预处理家蝇脑突触体,用K+去极化后对敏感、抗溴氰菊酯和抗氯菊酯家蝇品系释放去甲肾上腺素的加强作用分别提高80.3%、26.5%和70.5%;用10^-5 mol/L氯菊酯预处理3个家蝇品系的突触体对去甲肾上腺素释放均无加强作用。由此表明,家蝇对溴氰菊酯的抗性是与Na+通道的亲和性降低有关,而氯菊酯的抗性与Na+通道的亲和性关系不大。     

拟除虫菊酯对家蝇Na-K-ATPase抑制作用的研究

通过对家蝇神经系统Na-K-ATPase性质的研究,表明Na-K-ATPase反应的适宜pH值为7.0～8.0,适温为35～40℃,K_m为0.22 mmol/L,V_max为555.56 nmol/(mg·min)。比较测定了家蝇敏感品系、Del-R、2Cl-R抗性品系的Na-K-ATPase活性及溴氰菊酯和氯菊酯对该酶的抑制作用。实验证明,敏感与抗性品系间Na-K-ATPase活力无显著的差异,但溴氰菊酯和氯菊酯对不同家蝇品系Na-K-ATPase的抑制作用有明显区别,两种拟除虫菊酯可抑制敏感家蝇品系Na-K-ATPase的活性,而对抗性品系无明显的抑制作用。     

拟除虫菊酯抗性家蝇的交互抗药性研究

拟除虫菊酯的广泛使用使家蝇普遍产生了抗药性,为有效的控制家蝇的危害,需要了解家蝇对轮换或新杀虫剂的交互抗性状况。作者用点滴法测定了两个实验室汰选的拟除虫菊酯抗性家蝇品系对几种杀虫剂的交互抗性,结果表明:二氯苯醚菊酯和溴氰菊酯之间存在较高程度的交互抗药性;拟除虫菊酯抗性较高的家蝇对作用机制不同的新农药(多杀菌素、氟虫腈)表现较低程度的交互抗性。     

棉铃虫对拟除虫菊酯抗性稳定性研究

研究棉铃虫Helicoverpa armigera (Hubner)对三种拟除虫菊醌（氰戊菊酯、溴氰菊酯、功夫菊酯)的抗性稳定性及敏感性恢复表明,即使棉铃虫对氰戊菊酯的抗性达到3166.3倍以上,抗性仍不稳定,经14代室内饲养后抗性下降为61.4倍;对一系列田间抗性种群的抗性稳定性研究后发现,棉铃虫对这三种拟除虫菊酯的抗性不稳定,在没有杀虫剂选择的情况下,开始几代抗性下降较快,当下降到一定水平(2～9倍)后,抗性比较稳定,很难完全恢复对拟除虫菊酯的敏感性。     

北京地区家蝇对拟除虫菊酯的抗药性与α-乙酸萘酯(α-NA)酯酶的关系

 通过1988年以来对北京地区家蝇(Musca domestica L.)抗药性的研究表明,北京朝阳、回龙观、宣武、景陵地区的家蝇种群与海口种群LD_(50)比较,对溴氰菊酯的抗性为5.4—17.2倍,对二氯苯醚菊酯的抗性为2460—3080倍。不同抗性水平的家蝇种群中,α-NA确酶活性大于0.5(A600值(0.01头·15分))的个体频率与其溴氰菊酯和二氯苯醚菊酯的抗性程度具有显著相关(相关系数分别为0.94和0.98)。抗性程度较高的宣武种群平均酯酶活性为280μmol/(mg蛋白质·分),是海口敏感种群的10.5倍。海口种群α-NA酯酶的米氏常数值(Km)为4.49mol/L,分别是朝阳、回龙观、宣武种群的4.7、4.2和2.3倍,说明抗性种群α-NA酯酶对底物的亲合力高于相对敏感的海口种群。     

家蝇对DDT和拟除虫菊酯的重要抗性机制——中枢神经系统的不敏感性

本文以电生理技术研究了四个品系的家蝇Musca domestica vicina Macq.中枢神经系统(CNS)对DDT、二氯苯醚菊酯和澳氰菊酯的敏感性,结果表明:三种抗性家蝇,DDT高抗品系(DDT-R)、二氯苯醚菊酯高抗品系(2C1-R)和溴氰菊酯高抗品系(Dec-R)的中枢神经系统(CNS)对三种杀虫剂的敏感性与敏感家蝇相比均明显降低,而且,GNS的不敏感性随杀虫剂LD₅₀的升高有逐渐上升的趋势.我们认为,CNS不敏感性是家蝇对DDT相拟除虫菊酯产生抗性的一个重要机制,也是产生交互抗性的一个重要原因.     

家蝇对DDT和拟除虫菊酯的重要抗性机制——中枢神经系统的不敏感性

本文以电生理技术研究了四个品系的家蝇Musca domestica vicina Macq.中枢神经系统(CNS)对DDT、二氯苯醚菊酯和澳氰菊酯的敏感性,结果表明:三种抗性家蝇,DDT高抗品系(DDT-R)、二氯苯醚菊酯高抗品系(2C1-R)和溴氰菊酯高抗品系(Dec-R)的中枢神经系统(CNS)对三种杀虫剂的敏感性与敏感家蝇相比均明显降低,而且,GNS的不敏感性随杀虫剂LD₅₀的升高有逐渐上升的趋势.我们认为,CNS不敏感性是家蝇对DDT相拟除虫菊酯产生抗性的一个重要机制,也是产生交互抗性的一个重要原因.     

拟除虫菊酯对家蝇Ca—ATPase和Ca—Mg—ATPase的抑制作用

通过对家蝇神经系统的Ca-ATPase、Ca-Mg-ATPase性质的研究,表明Ca-ATPase、Ca-Mg-AT-Pase反应的适宜pH值分别为7.0-8.5和6.5。适温皆为35-40℃;底物（ATP）最适浓度均为0.5mmol/L。比较测定了家蝇三个品系中两种ATPase的活性及拟除虫菊酯对该酶的抑制作用,实验证明,敏感与Del-R、2Cl-R品系间Ca-ATPase、Ca-Mg-ATPase活力无明显的差异。溴氰菊酯、氯菊酯可部分地抑制敏感品系家蝇Ca-ATPase活性,而对拟除虫菊酯抗性品系Ca-ATPase无抑制作用,从而证明,Del-R、2Cl-B品系Ca-ATPase对拟除虫菊酯的敏感性已明显降低,这可能能是击倒抗性机制之一。实验还表明,拟除虫菊酯对Ca-Mg-ATPase基本上无抑制作用,这说明在家蝇中,Ca-Mg-ATPase并不是拟除虫菊酯的一个靶标位点。     

Infestation by pyrethroids resistant bed bugs in the suburb of Paris,France

Bed bugs are hematophagous insects responsible for a re-emerging and challenging indoor pest in many countries. Bed bugs infestations may have health consequences including nuisance biting, cutaneous and systemic reactions. This resurgence can probably be attributed to factors such as increased international travel and development of resistance against insecticides. Resistance against pyrethroids has been reported several times from the USA and rarely in Europe. In France, very few data on bed bugs are available. The present study aimed to assess the infestation by bed bugs of a complex of two high-rise apartment buildings in the suburb of Paris and to evaluate their susceptibility to pyrethroid insecticides. We inspected for bed bugs 192 out of 198 apartments units (97%) and interviewed their residents. 76 (39.6%) apartments were infested. Among the 97 residents living in infested apartments, 53 (54.6%) reported bed bug bites. A total of 564 bed bugs were collected in the infested units. Bioassays showed that 54 out of 143 bed bugs were resistant to pyrethroids (37.8%; 95% confidence interval: 29.9-45.7%). DNA sequencing showed that all bed bugs tested (n = 124) had homozygous L925I kdr-like gene mutation. The level of pyrethroid resistance found indicates that this phenomenon was already established in the site and prompts the need to reevaluate the wide use of pyrethroids to control bed bugs.     

Effect of temperature on toxicity of three pyrethroids to horn flies

Predictive models describing best-fit regression equations for per cent mortality of horn flies as a function of temperature were determined for each of three pyrethroid insecticides (fenvalerate, flucythrinate and permethrin) over the temperature range 20-35 degrees C. Susceptible horn flies, Haematobia irritans (L.), were exposed to c. an LC70 dose of each pyrethroid using a residue-on-glass method. This technique used confined exposure in chambers with temperatures of 20, 25, 30 and 35 degrees C. Within this range, mortality was greatest at 25 degrees C with all three insecticides. Estimated temperature-mortality equations for each pyrethroid revealed different responses of horn flies to each of these insecticides. Horn flies exposed to flucythrinate demonstrated a linear mortality response that varied inversely with temperature. The response to permethrin was described by a quadratic equation, while the response to fenvalerate was best fitted by a cubic equation.     

Monitoring and selection of resistance to pyrethroids in the Australian sheep blowfly, Lucilia cuprina

Field and laboratory populations of the Australian sheep blowfly, Lucilia cuprina (Wiedemann) (Calliphoridae), were surveyed by bioassay for possible resistance to the synthetic pyrethroids, a group of insecticides under development for blowfly control. A normal distribution of LC50 values was found using deltamethrin, the test pyrethroid, with no indication of specific resistance despite widespread use of deltamethrin on sheep to control the sheep body louse, Damalinia ovis (Schrank) (Trichodectidae). There was no cross-resistance to deltamethrin from existing organophosphate (OP) resistance nor from previous use of DDT. Selection with deltamethrin on a combined field strain, CSF85, increased the LC50 gradually over the first twenty generations until it stabilized at approximately 25x that of the unselected CSF85. This laboratory-induced resistance extended to other pyrethroids, cypermethrin (16x), cyhalothrin (25x) and cycloprothrin (10x), and increased the existing resistance of CFS85 to the OP diazinon (11x) and the carbamate, butacarb (83x).     

A neural network prediction of environmental determinants of Anopheles sinensis knockdown resistance mutation to pyrethroids in China

Selection pressure caused by long‐term intensive use of insecticides is the key driving force in resistance development. Additional parameters such as environmental conditions may affect both the mosquito response to insecticides and the selection of resistance mechanisms. In this context, we analyzed the environmental determinants of kdr prevalence in Anopheles sinensis across China. We collected kdr frequency from 48 sites across central and southern China, together with key environmental factors including long‐term climatic data, topographic features, main crops, and land cover types. Trend surface analysis found that the distribution of kdr frequency can be partitioned into three regions, namely central China (kdr frequency >80%), western China (kdr frequency varies from 0% to 60%), and southern China (kdr frequency <10%). Seven predictor variables were selected based on a radial basis function neural network model. A multilayer perceptron (MLP) network model revealed that the number of crops in a year was the most important predictor for the kdr mutation rate. Topography, long‐term mean climate and land cover all contributed to the kdr mutation rate. The observed mean kdr frequency was 53.0% and the MLP network model‐predicted mean was 52.6%, a 0.1% relative error. Predicted kdr frequencies closely matched the observed values. The model explained 92% of the total variance in kdr frequency. The results indicated that kdr was associated with the intensity of pesticide usage. Crop cultivation information, together with environmental factors, may well predict the spatial heterogeneity of kdr mutations in An. sinensis in China.     

Effect of rotational use of insecticides on pyrethroids resistance in Helicoverpa armigera (Lep.: Noctuidae)

Abstract:  To investigate fluctuation in susceptibility to insecticides in the field, natural populations of Helicoverpa armigera were collected from the same field in the region of Multan, Pakistan in 2002 and 2003. The populations were examined against pyrethroids (viz. cypermethrin, esfenvalerate and fenpropathrin) and new insecticides (viz. spinosad, abamectin and indoxacarb). In 2002, the resistance ratio (RR) of cypermethrin and esfenvalerate was significantly higher than fenpropahrin compared with susceptible population. The susceptibility to cypermethrin, esfenvalerate and fenpropathrin increased significantly in 2003; however, the RR for cypermethrin was about half the RR (38) of esfenvalerate (101) and fenpropathrin (89). The toxicity of spinosad, abamectin and indoxacarb was identical in both years. In the field experiments, abamectin was more effective than other compounds tested whereas fenpropathrin, cypermethrin and esfenvalerate had similar toxicity. These results might have important implications in resistance management and suggest that the rotational use of spinosad, abamectin and indoxacarb could help to avoid the development of multiple resistant in H. armigera .     

A sodium channel mutation identified in Aedes aegypti selectively reduces cockroach sodium channel sensitivity to type I, but not type II pyrethroids

Voltage-gated sodium channels are the primary target of pyrethroid insecticides. Numerous point mutations in sodium channel genes have been identified in pyrethroid-resistant insect species, and many have been confirmed to reduce or abolish sensitivity of channels expressed in Xenopus oocytes to pyrethroids. Recently, several novel mutations were reported in sodium channel genes of pyrethroid-resistant Aedes mosquito populations. One of the mutations is a phenylalanine (F) to cysteine (C) change in segment 6 of domain III (IIIS6) of the Aedes mosquito sodium channel. Curiously, a previous study showed that alanine substitution of this F did not alter the action of deltamethrin, a type II pyrethroid, on a cockroach sodium channel. In this study, we changed this F to C in a pyrethroid-sensitive cockroach sodium channel and examined mutant channel sensitivity to permethrin as well as five other type I or type II pyrethroids in Xenopus oocytes. Interestingly, the F to C mutation drastically reduced channel sensitivity to three type I pyrethroids, permethrin, NRDC 157 (a deltamethrin analogue lacking the ??-cyano group) and bioresemthrin, but not to three type II pyrethroids, cypermethrin, deltamethrin and cyhalothrin. These results confirm the involvement of the F to C mutation in permethrin resistance, and raise the possibility that rotation of type I and type II pyrethroids might be considered in the control of insect pest populations where this particular mutation is present.     

Relative contribution of detoxifying enzymes to pyrethroid resistance in a resistant strain of Helicoverpa armigera

Abstract:  The relative contribution of oxidases and esterases to pyrethroid resistance was studied in a YS-FP strain of Helicoverpa armigera from China. The YS-FP strain was derived from a field-collected strain (YS) by 16 generations of selection with a mixture of fenvalerate and phoxim. Compared with the YS strain, the YS-FP strain showed 1850- to >7140-fold resistance to four ester-bonded phenoxybenzyl alcohol pyrethroids (fenvalerate, deltamethrin, cypermethrin and cyhalothrin), >205-fold resistance to a non-ester phenoxybenzyl alcohol pyrethroid (etofenprox) and only 19-fold resistance to an ester-bonded methylated biphenyl alcohol pyrethroid (bifenthrin). The oxidase inhibitor piperonyl butoxide eliminated most the of resistance to fenvalerate, deltamethrin, cypermethrin, cyhalothrin and etofenprox, whereas the esterase inhibitor S,S,S -tributylphosphorothioate had a small synergistic effect for fenvalerate and cyhalothrin only. This suggests that the resistance to these pyrethroids in the YS-FP strain was mainly because of enhanced oxidative detoxification. The monooxygenase activities of the midguts of sixth-instar larvae of the YS-FP strain to substrates p -nitroanisole, ethoxycoumarin and methoxycoumarin were 3.7-, 4.7- and 10-fold, respectively, compared with that of the YS strain. Glutathione S -transferase activity and esterase activity were not significantly altered in the YS-FP strain. This confirms that enhanced oxidative detoxification was a major mechanism contributing to pyrethroid resistance in the YS-FP strain.     

Mechanisms of resistance to DDT and pyrethroids in Patagonian populations of Simulium blackflies

Mixed populations of the pest blackflies Simulium bonaerense Coscarón & Wygodzinsky, S. wolffhuegeli (Enderlein) and S. nigristrigatum Wygodzinsky & Coscarón (Diptera: Simuliidae) are highly resistant to DDT and pyrethroids in the Neuquén Valley, a fruit-growing area of northern Patagonia, Argentina. As these insecticides have not been used for blackfly control, resistance is attributed to exposure to agricultural insecticides. Pre-treatment with the synergist piperonyl butoxide (PBO) reduced both DDT and fenvalerate resistance, indicating that resistance was partly due to monooxygenase inhibition. Pre-treatment with the synergist tribufos to inhibit esterases slightly increased fenvalerate toxicity in the resistant population. Even so, biochemical studies indicated almost three-fold higher esterase activity in the resistant population, compared to the susceptible. Starch gel electrophoresis confirmed higher frequency and staining intensity of esterase electromorphs in the resistant population. Incomplete synergism against metabolic resistance indicates additional involvement of a non-metabolic resistance mechanism, such as target site insensitivity, assumed to be kdr-like in this case. Glutathione S-transferase activities were low and inconsistent, indicating no role in Simulium resistance. Knowing these spectra of insecticide activity and resistance mechanisms facilitates the choice of more effective products for Simulium control and permits better coordination with agrochemical operations.     

The impact of nisin on sensitive and resistant mutants of Listeria monocytogenes in cottage cheese

Aims: Listeria monocytogenesΔgadD1 and ΔlisK mutants display enhanced and reduced sensitivity, respectively, to the food preservative nisin in laboratory media. However, the behaviour of these strains in a nisin‐containing food has not been assessed. Here we use cottage cheese as a model food to address this issue. Materials and Results: Antibiotic‐resistant forms of the wild‐type and mutant strains were employed to investigate the behaviour of multiple strains in a single food sample, thereby eliminating the problem of intersample variation. Using this approach, it was established that percentage survival of the ΔlisK mutant was greater than the parent strain in the absence of nisin and that this relative difference became even more dramatic in cottage cheese supplemented with nisin. The numbers of the ΔgadD1 mutant decreased more rapidly than the parent in cottage cheese without nisin, but surprisingly this trend was reversed in nisin‐supplemented cheese. Upon the addition of 10 mmol l^?1 monosodium glutamate, a substrate for the glutamate decarboxylase (GAD) system, the wild‐type LO28 strain regained its relative advantage over ΔgadD1. Conclusions: Care needs to be taken when predicting the behaviour of mutants of L. monocytogenes with altered resistance to nisin in food as experiments in laboratory media are not always a good indicator of how the strains will behave in such food environments. Significance and impact of the Study: This study further emphasizes the importance of utilizing food matrices to confirm observations made using laboratory media.