Doucet Daniel, Béliveau Catherine, Dowling Ashley, Simard Jocelyne, Feng Qili, Krell Peter J, Cusson Michel
Laurentian Forestry Centre, Natural Resources Canada, Quebec, Canada.
Arch Insect Biochem Physiol. 2008 Apr;67(4):188-201. doi: 10.1002/arch.20227.
Immune challenge in arthropods is frequently accompanied by melanization of the hemolymph, a reaction triggered by the activation of prophenoloxidase (PPO). Because their immature stages are spent inside the hemocoel of insect larvae, endoparasitoids have evolved strategies to escape or counter melanin formation. Very little molecular information is available on these endoparasitoid counterstrategies. We have sought to shed light on the inhibition of melanization in the spruce budworm, Choristoneura fumiferana, by the parasitic wasp Tranosema rostrale, by cloning two host PPO homologs and studying their transcriptional regulation after parasitization. The two polypeptides are encoded by transcripts of approximately 3.3 kb (for CfPPO1) and 3.0 kb (for CfPPO2) and possess structural features typical of other insect PPOs. While there appears to be a single CfPPO2 gene in the C. fumiferana genome, we detected three CfPPO1 mRNA variants displaying insertions/deletions in the 3' untranslated region, suggesting that there may be more than one CfPPO1 gene copy. Both CfPPO1 and CfPPO2 were expressed at high levels in C. fumiferana 6th instars, and parasitization by T. rostrale had no apparent impact on the level of their transcripts. Injection of a large dose (0.5 female-equivalent) of polydnavirus-laden calyx fluid extracted from T. rostrale, which is known to inhibit melanization in C. fumiferana, only caused a transient decrease in CfPPO1 and CfPPO2 transcript accumulation at 2-3 d post injection. It thus appears that transcriptional downregulation of C. fumiferana PPO by T. rostrale plays a minor role in the inhibition of hemolymph melanization in this host-parasitoid system.
节肢动物的免疫应激通常伴随着血淋巴黑化,这是一种由前酚氧化酶(PPO)激活引发的反应。由于内寄生蜂的未成熟阶段生活在昆虫幼虫的血腔中,它们进化出了逃避或对抗黑色素形成的策略。关于这些内寄生蜂的应对策略,目前分子信息非常少。我们试图通过克隆云杉芽卷叶蛾(Choristoneura fumiferana)的两个宿主PPO同源物,并研究寄生后它们的转录调控,来阐明寄生蜂Tranosema rostrale对云杉芽卷叶蛾黑化的抑制作用。这两种多肽由大约3.3 kb(CfPPO1)和3.0 kb(CfPPO2)的转录本编码,并具有其他昆虫PPO的典型结构特征。虽然在云杉芽卷叶蛾基因组中似乎只有一个CfPPO2基因,但我们检测到三个CfPPO1 mRNA变体,它们在3'非翻译区存在插入/缺失,这表明可能有不止一个CfPPO1基因拷贝。CfPPO1和CfPPO2在云杉芽卷叶蛾六龄幼虫中均高水平表达,Tranosema rostrale寄生对它们的转录本水平没有明显影响。注射从Tranosema rostrale中提取的大量(0.5雌蜂当量)携带多角体病毒的萼液(已知其能抑制云杉芽卷叶蛾的黑化),仅在注射后2 - 3天导致CfPPO1和CfPPO2转录本积累出现短暂下降。因此,在这个宿主 - 寄生蜂系统中,Tranosema rostrale对云杉芽卷叶蛾PPO的转录下调在抑制血淋巴黑化中作用较小。