犬尿酸对黑胃果蝇野生型和朱红色突变体发育和衰老的影响。

Pharmacology, drug development & therapeutics Pub Date : 2016-01-01 Epub Date: 2016-12-08 DOI:10.15761/PDDT.1000104
Valeriya Navrotskaya, Gregory Oxenkrug
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引用次数: 9

摘要

背景:色氨酸(Trp)向犬尿氨酸(Kyn)转化的上调和Kyn下游代谢产物的增加是衰老和神经退行性疾病的机制之一。Kyn是犬尿酸(KYNA)的直接前体,是NMDA和α7nAChR受体的拮抗剂和芳烃受体的激活剂。增加KYNA的形成改善亨廷顿病果蝇模型的神经变性和羽化缺陷。目的:研究KYNA对野生型(Canton-S, CS)和朱红色果蝇突变体蛹活力和寿命的影响,这些突变体由于编码Trp-2,3-双加氧酶(TDO)的朱红色基因(v)突变而导致Kyn形成不足。方法:将朱砂突变体转移到Canton-S遗传背景(v-CS)中。在标准温度(23℃)下观察KYNA对蛹存活率(子代蛹数和致死率%%)的影响。在28°C(加速老化)条件下,对KYNA对成虫寿命的影响进行了评估。结果:KYNA使广东- s蝇的死蛹率从8.36%增加到33.62%,增加了4倍(p=0.0001),而在v-CS蝇中没有增加(p=0.0001)。KYNA对广东- s雌蝇寿命无影响,但使广东- s雌蝇寿命降低(17.15 ~ 14.29 d)。KYNA使雄广s蝇和v-CS蝇的寿命分别从17.92 ~ 19.96 d和14.52 ~ 17.75 d延长。讨论:这是第一次(据我们所知)观察到KYNA对果蝇蛹的毒性作用。KYNA对高温加速衰老的作用具有性别依赖性。目前的数据支持下游Kyn代谢物在衰老机制中的作用。
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Effect of kynurenic acid on development and aging in wild type and vermilion mutants of Drosophila melanogaster.

Background: Up-regulation of tryptophan (Trp) conversion into kynurenine (Kyn) and increased formation of down-stream metabolites of Kyn is one of the mechanisms of aging and neurodegenerative disorders. Kyn is an immediate precursor of kynurenic acid (KYNA), an antagonist to NMDA and α7nAChR receptors and activator of aryl hydrocarbon receptor. Increased formation of KYNA ameliorates neurodegeneration and eclosion defect in Drosophila model of Huntington's Disease.

Aims: Effect of KYNA on pupae viability and life span was evaluated in wild type (Canton-S, CS) and vermilion Drosophila mutants with deficient formation of Kyn due to mutation of vermilion gene (v) that encodes the Trp-2,3-dioxygenase (TDO), enzyme catalyzing Trp conversion into Kyn.

Methods: Vermilion mutants were transferred into the Canton-S genetic background (v-CS). KYNA effect on viability (number of filial generation pupae and %% of their lethality) was assessed in pupae maintained at standard temperature (23°C). KYNA effect on life span was evaluated in adult (imago) flies maintained at 28°C (accelerated aging).

Results: KYNA drastically increased (4 fold from 8.36 to 33.62) %% of dead pupae in Canton-S but not in v-CS flies (p=0.0001). KYNA did not affect life span of female Canton-S flies but decreased life span of v-CS female flies (from 17.15 to 14.29 days). KYNA increased life span of male Canton-S (from 17.92 to 19.96 days) and v-CS flies (14.52 to 17.75 days).

Discussion: This the first (to the best of our knowledge) observation of the toxic effect of KYNA in Drosophila pupae. KYNA effect on high-temperature induced aging acceleration was gender dependent. Present data support the role of downstream Kyn metabolites in aging mechanisms.

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Effect of kynurenic acid on development and aging in wild type and vermilion mutants of Drosophila melanogaster.
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