Developmental Diet Alters the Fecundity-Longevity Relationship and Age-Related Gene Expression in Drosophila melanogaster.

IF 4.3 2区 医学 Q1 GERIATRICS & GERONTOLOGY Journals of Gerontology Series A-Biological Sciences and Medical Sciences Pub Date : 2023-12-01 DOI:10.1093/gerona/glad199
David H Collins, David C Prince, Jenny L Donelan, Tracey Chapman, Andrew F G Bourke
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Abstract

The standard evolutionary theory of aging predicts a negative relationship (trade-off) between fecundity and longevity. However, in principle, the fecundity-longevity relationship can become positive in populations in which individuals have unequal resources. Positive fecundity-longevity relationships also occur in queens of eusocial insects such as ants and bees. Developmental diet is likely to be central to determining trade-offs as it affects key fitness traits, but its exact role remains uncertain. For example, in Drosophila melanogaster, changes in adult diet can affect fecundity, longevity, and gene expression throughout life, but it is unknown how changes in developmental (larval) diet affect fecundity-longevity relationships and gene expression in adults. Using D. melanogaster, we tested the hypothesis that varying developmental diets alters the directionality of fecundity-longevity relationships in adults, and characterized associated gene expression changes. We reared larvae on low (20%), medium (100%), and high (120%) yeast diets, and transferred adult females to a common diet. We measured fecundity and longevity of individual adult females and profiled gene expression changes with age. Adult females raised on different larval diets exhibited fecundity-longevity relationships that varied from significantly positive to significantly negative, despite minimal differences in mean lifetime fertility or longevity. Treatments also differed in age-related gene expression, including for aging-related genes. Hence, the sign of fecundity-longevity relationships in adult insects can be altered and even reversed by changes in larval diet quality. By extension, larval diet differences may represent a key mechanistic factor underpinning positive fecundity-longevity relationships observed in species such as eusocial insects.

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发育性饮食改变黑腹果蝇繁殖力-寿命关系和年龄相关基因表达。
衰老的标准进化理论预测生育能力和寿命之间存在负相关关系(权衡关系)。然而,原则上,在个体资源不平等的种群中,繁殖力与寿命的关系可以变为正相关。繁殖力与寿命之间的正相关关系也出现在像蚂蚁和蜜蜂这样的群居昆虫的蚁后身上。发育性饮食可能是决定权衡的核心,因为它影响关键的健康特征,但其确切作用仍不确定。例如,在黑腹果蝇(Drosophila melanogaster)中,成虫饮食的变化会影响一生的繁殖力、寿命和基因表达,但尚不清楚发育(幼虫)饮食的变化如何影响成虫的繁殖力-寿命关系和基因表达。利用黑腹龙,我们验证了一种假设,即不同的发育饮食改变了成虫繁殖力-寿命关系的方向性,并表征了相关基因表达的变化。我们在低(20%)、中(100%)和高(120%)酵母饲料中饲养幼虫,并将成年雌性转移到普通饲料中。我们测量了个体成年雌性的繁殖力和寿命,并描绘了基因表达随年龄的变化。在不同的幼虫饲料中饲养的成年雌性表现出从显著正到显著负的繁殖力-寿命关系,尽管平均一生的繁殖力或寿命差异很小。治疗在与年龄相关的基因表达方面也存在差异,包括与衰老相关的基因。因此,成虫的繁殖力-寿命关系的标志可以通过幼虫饮食质量的变化而改变甚至逆转。进一步说,幼虫的饮食差异可能代表了在真社会性昆虫等物种中观察到的正繁殖力-寿命关系的关键机制因素。
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来源期刊
CiteScore
10.00
自引率
5.90%
发文量
233
审稿时长
3-8 weeks
期刊介绍: Publishes articles representing the full range of medical sciences pertaining to aging. Appropriate areas include, but are not limited to, basic medical science, clinical epidemiology, clinical research, and health services research for professions such as medicine, dentistry, allied health sciences, and nursing. It publishes articles on research pertinent to human biology and disease.
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