High-fat and high-sugar diets induce rapid adaptations of fat storage in the house fly Musca domestica L.

IF 2.1 3区 生物学 Q3 ECOLOGY
Francesco Boatta, Jurgen van Hal, Leo W Beukeboom, Jacintha Ellers
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Abstract

Dietary change can be a strong evolutionary force and lead to rapid adaptation in organisms. High-fat and high-sugar diets can challenge key metabolic pathways, negatively affecting other life history traits and inducing pathologies such as obesity and diabetes. In this study, we use experimental evolution to investigate the plastic and evolutionary responses to nutritionally unbalanced diets. We reared replicated lines of larvae of the housefly Musca domestica on a fat-enriched (FAT), a sugar-enriched (SUG), and a control (CTRL) diet for thirteen generations. We measured development time in each generation and larval growth and fat accumulation in generations 1, 7, and 13. Subsequently, all lines were reared for one generation on the control diet to detect any plastic and evolutionary changes. In the first generation, time to pupation decreased on a fat-rich diet and increased on a sugar-rich diet. The fat-rich diet increased fat accumulation and, to a lesser extent, the dry weight of the larvae. Multigenerational exposure to unbalanced diets caused compensatory changes in development time, dry weight, and absolute and relative fat content, although pattern and timing depended on diet and trait. When put back on a control diet, many of the changes induced by the unbalanced diets disappeared, indicating that the diet has large plastic effects. Nevertheless, fat-evolved lines still grew significantly larger than the sugar-evolved lines, and sugar-evolved lines had consistently lower fat content. This can be an effect of parental diet or an evolutionary change in nutrient metabolism as a consequence of multigenerational exposure to unbalanced diets.

高脂肪和高糖饮食诱导家蝇快速适应脂肪储存
膳食变化可以成为一种强大的进化力量,并导致生物快速适应。高脂肪和高糖饮食会挑战关键的代谢途径,对其他生命史特征产生负面影响,并诱发肥胖和糖尿病等病症。在这项研究中,我们利用实验进化来研究营养不均衡饮食的可塑性和进化反应。我们用富含脂肪(FAT)、富含糖(SUG)和对照(CTRL)的食物饲养了家蝇幼虫的重复品系,共饲养了13代。我们测量了每一代的发育时间,以及第 1、7 和 13 代的幼虫生长和脂肪积累情况。随后,所有品系都在对照组食物中饲养了一代,以检测是否发生了塑性和进化变化。在第一代中,富含脂肪的食物减少了化蛹时间,而富含糖的食物增加了化蛹时间。富含脂肪的食物增加了幼虫的脂肪积累,在较小程度上增加了幼虫的干重。多代暴露于不平衡日粮可引起发育时间、干重以及绝对和相对脂肪含量的补偿性变化,但变化的模式和时间取决于日粮和性状。当重新使用对照日粮时,不平衡日粮引起的许多变化都消失了,这表明日粮具有很大的可塑性效应。尽管如此,脂肪进化品系仍然比糖进化品系长得大得多,而且糖进化品系的脂肪含量一直较低。这可能是亲代膳食的影响,也可能是多代暴露于不平衡膳食导致营养代谢的进化变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Evolutionary Biology
Journal of Evolutionary Biology 生物-进化生物学
CiteScore
4.20
自引率
4.80%
发文量
152
审稿时长
3-6 weeks
期刊介绍: It covers both micro- and macro-evolution of all types of organisms. The aim of the Journal is to integrate perspectives across molecular and microbial evolution, behaviour, genetics, ecology, life histories, development, palaeontology, systematics and morphology.
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