果蝇细胞色素P450 Cyp6a2中与杀虫剂抗性相关的点突变使DDT代谢成为可能。

Marcel Amichot, Sophie Tarès, Alexandra Brun-Barale, Laury Arthaud, Jean-Marc Bride, Jean-Baptiste Bergé
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引用次数: 125

摘要

三个点突变R335S, L336V和V476L区分了细胞色素P450 CYP6A2变异的序列,该变异被认为是导致黑腹果蝇RDDT(R)菌株对1,1,1-三氯-2,2-二-(4'-氯苯)乙烷(DDT)抗性的原因。为了确定每种突变对CYP6A2功能的影响,我们在大肠杆菌中表达了CYP6A2的野生型酶(CYP6A2wt)以及携带单突变的三种变体,即双突变CYP6A2vSV和三突变CYP6A2vSVL。所有CYP6A2变异都不如CYP6A2wt蛋白稳定。所有重组蛋白均增强了RDDT(R)菌株的睾酮羟基化和DDT代谢活性。睾酮在2 β位置羟基化,变异之间的数量变化很小。相反,DDT的代谢受到突变的强烈影响。CYP6A2vSVL酶对DDT的代谢增强,产生三氯醇、二氯二苯二氯乙烷和二氯二苯乙酸。I型差异谱显示,CYP6A2wt和CYP6A2vSVL对DDT和睾酮的表观亲和力无显著差异。与CYP102A1的序列比对提供了CYP6A2突变氨基酸位置的线索。这些突变在空间上集中在相对于底物识别谷的螺旋I远端附近。因此,这个区域,包括螺旋J,对CYP6A2的结构和活性很重要。此外,我们在这里表明,细胞色素P450的点突变可以在杀虫剂抗性中发挥重要作用。
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Point mutations associated with insecticide resistance in the Drosophila cytochrome P450 Cyp6a2 enable DDT metabolism.

Three point mutations R335S, L336V and V476L, distinguish the sequence of a cytochrome P450 CYP6A2 variant assumed to be responsible for 1,1,1-trichloro-2,2-bis-(4'-chlorophenyl)ethane (DDT) resistance in the RDDT(R) strain of Drosophila melanogaster. To determine the impact of each mutation on the function of CYP6A2, the wild-type enzyme (CYP6A2wt) of Cyp6a2 was expressed in Escherichia coli as well as three variants carrying a single mutation, the double mutant CYP6A2vSV and the triple mutant CYP6A2vSVL. All CYP6A2 variants were less stable than the CYP6A2wt protein. Two activities enhanced in the RDDT(R) strain were measured with all recombinant proteins, namely testosterone hydroxylation and DDT metabolism. Testosterone was hydroxylated at the 2beta position with little quantitative variation among the variants. In contrast, metabolism of DDT was strongly affected by the mutations. The CYP6A2vSVL enzyme had an enhanced metabolism of DDT, producing dicofol, dichlorodiphenyldichloroethane and dichlorodiphenyl acetic acid. The apparent affinity of the enzymes CYP6A2wt and CYP6A2vSVL for DDT and testosterone was not significantly different as revealed by the type I difference spectra. Sequence alignments with CYP102A1 provided clues to the positions of the amino acids mutated in CYP6A2. These mutations were found spatially clustered in the vicinity of the distal end of helix I relative to the substrate recognition valley. Thus this area, including helix J, is important for the structure and activity of CYP6A2. Furthermore, we show here that point mutations in a cytochrome P450 can have a prominent role in insecticide resistance.

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