Over-expression of cytochrome P450 CYP6B7 mRNA and pyrethroid resistance in Australian populations of Helicoverpa armigera (Hübner)

Three cDNA clones for cytochrome P450s, CYP6B2, CYP6B6 and CYP6B7 which have 84–87% protein sequence identity have been isolated previously from Helicoverpa armigera, and the CYP6B7 mRNA was found to be over-expressed in a pyrethroid-resistant field population. Subsequent analysis has shown that over-expression is observed in a majority of individuals in all populations tested. Single-pair crosses between resistant and sensitive individuals indicated that the pyrethroid resistance co-segregated with the over-expression of this mRNA. Southern analysis indicated that the over-expression, which was confined to midgut only in many insects, was not related to gene amplification. These observations add weight to the conclusion that CYP6B7 is the cytochrome P450 form involved in pyrethroid resistance, and that over-expression of cytochrome P450 CYP6B7 is a common cause of pyrethroid resistance in H. armigera. The results suggest that specific probes for CYP6B7 protein or mRNA could provide the basis for the development of tools for monitoring pyrethroid resistance due to mixed function oxidase activity in field populations of this insect. © 1998 Society of Chemical Industry     

细胞色素P450s酶系催化除草剂代谢的研究进展

综述了细胞色素P450s酶系催化的单加氧反应机理,细胞色素P450s酶系在酰胺类、三氮苯类、磺酰脲类、脲类、苯氧羧酸类等除草剂的活性或降解代谢中的催化反应。讨论了研究细胞色素P450s酶系代谢作用在除草剂选择性、抗药性机理,抗除草剂作物的培育以及除草剂安全剂的解毒机理等方面的意义。     

Linkage of genes for sodium channel and cytochrome P450 (CYP6B10) in Heliothis virescens

Genetic linkage of hscp (heliothis sodium channel protein) and CYP6B10 was discovered in Heliothis virescens. The hscp gene encodes the sodium channel target of pyrethroid insecticides and cytochrome P450 genes encode important enzymes involved in detoxication of various pesticides. Previously, two mechanisms, nerve insensitivity due to sodium channel and synergism by propynyl aryl ethers, were observed in pyrethroid-resistant H virescens and were not separated by repeated back-crossing. We hypothesized genetic linkage of target site insensitivity and monooxygenase-mediated detoxication. Single nucleotide polymorphisms were discovered in IIS6 of hscp; Hpy of hscp and CYP6B10. Segregation of these and other markers was tested in backcrosses. We observed cosegregation of hscp to CYP6B10, but both genes assorted independently of y, ye and sex. Genes y and ye assorted independently of each other. This was the first observation of linkage between genes controlling detoxication and sodium ion channel insensitivity in a species known to express high levels of pyrethroid resistance. Linkage was not likely because this species has 31 chromosomes; therefore, we will investigate the possibility of a resistance cassette. We expect similar linkage in other noctuid pests.     

Differential expression of cytochrome P450 genes between bromadiolone-resistant and anticoagulant-susceptible Norway rats: a possible role for pharmacokinetics in bromadiolone resistance

BACKGROUND: Anticoagulant resistance in Norway rats, Rattus norvegicus (Berk.), has been suggested to be conferred by mutations in the VKORC1 gene, encoding the target protein of anticoagulant rodenticides. Other factors, e.g. pharmacokinetics, may also contribute to resistance, however. To examine the involvement of pharmacokinetics in bromadiolone resistance in male and female rats, liver expression profiles of seven cytochrome P450 genes from a Danish bromadiolone-resistant rat strain (with an Y139C-VKORC1 mutation) were compared with profiles from an anticoagulant-susceptible strain. RESULTS: In the presence of bromadiolone, the Cyp2e1, Cyp2c13, Cyp3a2 and Cyp3a3 genes were significantly overexpressed, while Cyp2c12 expression was suppressed in resistant female rats compared with susceptible females. Relative to susceptible males, resistant males showed significant overexpression of the Cyp2a1, Cyp2e1, Cyp3a2 and Cyp3a3 genes. On exposure to bromadiolone, females had higher Cyp2e1 expression than males, which possibly explains why female rats are generally more tolerant to anticoagulants than male rats. CONCLUSION: Results suggest that bromadiolone resistance in a Danish strain of Norway rats involves enhanced anticoagulant metabolism catalysed by cytochrome P450-2e1, -3a2 and -3a3. This pharmacokinetically based bromadiolone resistance is to some extent sex differentiated, as female resistance furthermore seems to involve overexpression of cytochrome P450-2c13 and suppression of P450-2c12, whereas male resistance appears to involve P450-2a1 overexpression.     

烟粉虱细胞色素CYP6EM1基因的克隆及对吡虫啉抗性的作用

烟粉虱是一种世界性农业害虫,其防治手段以化学防治为主,新烟碱类杀虫剂吡虫啉常年用于防治烟粉虱,田间烟粉虱已经形成严重的抗药性。本研究通过分析烟粉虱吡虫啉抗性和敏感种群,发现细胞色素CYP6EM1基因在吡虫啉抗性品系中上调了4.7倍,进而克隆了其全长基因,进行了荧光定量PCR分析,发现该基因在吡虫啉抗性烟粉虱3龄若虫期和雄虫成虫期过量表达,并且在抗性成虫胸部和腹部过量表达。最后通过RNA干扰的方法使成虫的CYP6EM1基因表达量下降了54.8%,之后发现当烟粉虱暴露于吡虫啉时死亡率显著升高了39.65%,这表明CYP6EM1与烟粉虱对吡虫啉抗性的形成相关。研究结果对于揭示烟粉虱对吡虫啉产生抗性的机制有帮助,也为烟粉虱抗性水平田间监测及烟粉虱综合治理提供理论依据。     

Metabolism of imidacloprid and DDT by P450 CYP6G1 expressed in cell cultures of Nicotiana tabacum suggests detoxification of these insecticides in Cyp6g1-overexpressing strains of Drosophila melanogaster, leading to resistance

BACKGROUND: With the worldwide use of insecticides, an increasing number of pest insect species have evolved target-site or metabolism-based resistance towards some of these compounds. The resulting decreased efficacy of pesticides threatens human welfare by its impact on crop safety and further disease transmission. Environmental concentrations of some insecticides are so high that even natural populations of non-target, non-pest organisms such as the fruit fly Drosophila melanogaster Meig. have been selected for resistance. Cyp6g1-overexpressing strains of D. melanogaster are resistant to a wide range of chemically diverse insecticides, including DDT and imidacloprid. However, up to now there has been no evidence that the CYP6G1 enzyme metabolises any of these compounds. RESULTS: Here it is shown, by heterologous expression in cell suspension cultures of Nicotiana tabacum L. (tobacco), that CYP6G1 is capable of converting DDT (20 microg per cell culture assay) by dechlorination to DDD (18% of applied amount in 48 h), and imidacloprid (400 microg) mainly by hydroxylation to 4-hydroxyimidacloprid and 5-hydroxyimidacloprid (58 and 19% respectively in 48 h). CONCLUSION: Thus, the gap between the supposed resistance gene Cyp6g1 and the observed resistance phenomenon was closed by the evidence that CYP6G1 is capable of metabolising at least two insecticides.     

烟粉虱细胞色素P450基因CYP6JM1的克隆及其在噻虫嗪抗性中的作用

烟粉虱Bemisia tabaci是全球性农业害虫之一, 目前采用的防治手段多为化学防治。噻虫嗪作为一种新烟碱类杀虫剂, 现被广泛应用于田间烟粉虱的防治, 但烟粉虱已对其产生了抗性。本文通过RT-qPCR对烟粉虱噻虫嗪抗性与敏感种群的细胞色素P450基因CYP6JM1表达水平进行了比较, 结果显示, 烟粉虱噻虫嗪抗性种群CYP6JM1基因表达水平明显升高。基因克隆和序列分析表明, CYP6JM1基因具备昆虫P450基因的典型特征。RT-qPCR检测结果表明, 该基因在烟粉虱1~2龄时期及腹部高水平表达。RNAi结果表明, 降低烟粉虱体内CYP6JM1基因的表达量能够显著提高其对噻虫嗪的敏感性, 表明CYP6JM1基因可能与烟粉虱对噻虫嗪的抗性有关。     

细胞色素P450抑制剂对白腐菌Phlebia lindtneri降解氯丹的影响

为确定细胞色素P450酶系在白腐菌Phlebia lindtneri降解有机氯类农药氯丹中的作用,在液体培养条件下,以胡椒基丁醚和1-氨基苯并三唑作为细胞色素P450的抑制剂,分析了不同浓度抑制剂对氯丹的降解、代谢产物的生成以及中间代谢物降解的影响。结果表明:与对照相比,高浓度(1.0 mmol/L)胡椒基丁醚或1-氨基苯并三唑处理15 d后氯丹的降解率均下降了约60%,且其代谢产物中除七氯和二氯代六氯的检出量显著增加外,其余环氧化及羟基化代谢产物均未检出;此外,添加高浓度的抑制剂可导致白腐菌降解中间代谢产物七氯及二氯代六氯的降解率下降90%以上,氧化氯丹的降解率下降70%以上,但不影响环氧七氯的降解。表明细胞色素P450可能是氯丹降解的主要酶系,其参与催化了氯丹的初始羟基化和水解、七氯和二氯代六氯的环氧化及氧化氯丹的水解等多个反应过程。