Fatally impaired glucose digestion by propylene glycol in Aedes aegypti (Diptera: Culicidae) and co-formulation with terpenoids for enhancing attractive toxic sugar baits.

Gavin Maes, Giulia Tintorri, Irvane E Nelson, Kobi A Baker, Corey E Seavey, Michele M Rehbein, Gregory S White, Ary Faraji, Bradley J Willenberg, Christopher S Bibbs
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Abstract

Propylene glycol (PG) demonstrates greater efficacy than other sugar polyols. However, the attributes it confers for toxicity and possible co-formulation with other ingredients are unknown. To evaluate this, α-glucosidase and glucose oxidase reactions were performed in Aedes aegypti (L.) (Diptera: Culicidae) to categorize if PG behaves similarly to prior studied sugar alcohols. A combination of no-choice and choice assays was used to determine effective ratios of PG and sucrose, competitiveness against a control of 10% sucrose, and whether mosquitoes recovered from PG consumption. The final trials included β-cyclodextrin encapsulated cinnamon leaf oil, clove stem oil, patchouli oil, garlic oil, cedarwood oil, and papaya seed oil formulated with 5% sucrose + 5% PG. PG functioned as a linear competitive inhibitor of α-glucosidase. The efficacy of PG was synergized by co-ingestion with equivalent ratios of sucrose. Unlike the high diuretic response to other sugar alcohols, PG resulted in diminished excretion regardless of being co-formulated with sucrose or terpenoids. PG is not especially competitive against unadulterated sugar meals but is likewise not clearly repellent. Although mosquitoes did not recover from ingestion of the glycol meals, there was no indication that mortality would continue to accumulate once the treatments were removed. Of the terpenoids tested, cinnamon and patchouli caused ~50% or less mortality; garlic, cedarwood, and clove caused 80-90% mortality; and papaya seed caused 100% mortality, exceeding all other test groups and the formulation blank. PG is a useful supporting ingredient in attractive toxic sugar bait formulations with flexibility in formulation.

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丙二醇对埃及伊蚊(双翅目:驱蚊科)葡萄糖消化的致命损害,以及与萜类化合物共同配制以增强糖诱饵的吸引力。
丙二醇(PG)比其他糖多元醇更有效。不过,它的毒性和可能与其他成分共同配制的属性尚不清楚。为了评估这一点,我们在埃及伊蚊(双翅目:Culicidae)体内进行了 α-葡萄糖苷酶和葡萄糖氧化酶反应,以确定 PG 的行为是否与之前研究过的糖醇类似。无选择试验和选择试验相结合,以确定 PG 和蔗糖的有效比率、与 10% 蔗糖对照的竞争性以及蚊子是否从 PG 消费中恢复过来。最后的试验包括用 5%蔗糖 + 5%PG配制的β-环糊精包裹肉桂叶油、丁香茎油、广藿香油、大蒜油、雪松油和木瓜种子油。PG 是一种线性竞争性α-葡萄糖苷酶抑制剂。与同等比例的蔗糖同时摄入,PG 的功效会得到增强。与其他糖醇的高利尿反应不同,无论是否与蔗糖或萜类化合物共同配制,PG 都会导致排泄减少。与未掺杂的糖粉相比,PG 并不具有特别的竞争力,但同样也不具有明显的驱避作用。虽然蚊子摄入乙二醇餐后没有恢复,但没有迹象表明,一旦去除处理,死亡率会继续累积。在测试的萜类化合物中,肉桂和广藿香造成的死亡率约为 50% 或更低;大蒜、雪松和丁香造成的死亡率为 80-90%;木瓜种子造成的死亡率为 100%,超过了所有其他测试组和空白配方。PG 是一种有用的辅助成分,可用于具有吸引力的毒糖诱饵配方,且配方灵活。
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