Department of Evolutionary Neuroethology, Max Planck Institute for Chemical Ecology, Hans-Knöll-Strasse 8, 07745 Jena, Germany.
Department of Biology, Lund University, Box 117, 22100 Lund, Sweden.
Curr Biol. 2015 Feb 16;25(4):455-66. doi: 10.1016/j.cub.2014.11.062. Epub 2015 Jan 22.
Dietary antioxidants play an important role in preventing oxidative stress. Whether animals in search of food or brood sites are able to judge the antioxidant content, and if so actively seek out resources with enriched antioxidant content, remains unclear.
We show here that the vinegar fly Drosophila melanogaster detects the presence of hydroxycinnamic acids (HCAs)-potent dietary antioxidants abundant in fruit-via olfactory cues. Flies are unable to smell HCAs directly but are equipped with dedicated olfactory sensory neurons detecting yeast-produced ethylphenols that are exclusively derived from HCAs. These neurons are housed on the maxillary palps, express the odorant receptor Or71a, and are necessary and sufficient for proxy detection of HCAs. Activation of these neurons in adult flies induces positive chemotaxis, oviposition, and increased feeding. We further demonstrate that fly larvae also seek out yeast enriched with HCAs and that larvae use the same ethylphenol cues as the adults but rely for detection upon a larval unique odorant receptor (Or94b), which is co-expressed with a receptor (Or94a) detecting a general yeast volatile. We also show that the ethylphenols act as reliable cues for the presence of dietary antioxidants, as these volatiles are produced--upon supplementation of HCAs--by a wide range of yeasts known to be consumed by flies.
For flies, dietary antioxidants are presumably important to counteract acute oxidative stress induced by consumption or by infection by entomopathogenic microorganisms. The ethylphenol pathway described here adds another layer to the fly's defensive arsenal against toxic microbes.
膳食抗氧化剂在预防氧化应激方面起着重要作用。动物在寻找食物或巢址时,是否能够判断抗氧化剂的含量,如果能够,是否会主动寻找富含抗氧化剂的资源,目前尚不清楚。
我们在这里表明,醋蝇黑腹果蝇通过嗅觉线索检测到羟基肉桂酸(HCAs)的存在——这种抗氧化剂在水果中含量丰富。果蝇不能直接闻到 HCAs,但它们配备了专门的嗅觉感觉神经元,可以检测到酵母产生的仅源自 HCAs 的乙基苯酚。这些神经元位于触角上,表达嗅觉受体 Or71a,对于 HCAs 的间接检测是必要和充分的。这些神经元在成年果蝇中的激活会诱导正向趋化性、产卵和增加摄食。我们进一步证明,幼虫也会寻找富含 HCAs 的酵母,并且幼虫使用与成虫相同的乙基苯酚线索,但检测依赖于幼虫特有的嗅觉受体(Or94b),该受体与检测一般酵母挥发物的受体(Or94a)共同表达。我们还表明,乙基苯酚作为膳食抗氧化剂存在的可靠线索,因为这些挥发物在补充 HCAs 后会被多种已知被果蝇食用的酵母产生。
对于果蝇来说,膳食抗氧化剂可能对抵御因食用或感染昆虫病原微生物而引起的急性氧化应激很重要。本文描述的乙基苯酚途径为果蝇对抗有毒微生物的防御武器增加了另一层。
