Brachionus rotifers as a model for investigating dietary and metabolic regulators of aging.

Q3 Medicine Nutrition and Healthy Aging Pub Date : 2021-01-20 DOI:10.3233/NHA-200104
Kristin E Gribble
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引用次数: 6

Abstract

Because every species has unique attributes relevant to understanding specific aspects of aging, using a diversity of study systems and a comparative biology approach for aging research has the potential to lead to novel discoveries applicable to human health. Monogonont rotifers, a standard model for studies of aquatic ecology, evolutionary biology, and ecotoxicology, have also been used to study lifespan and healthspan for nearly a century. However, because much of this work has been published in the ecology and evolutionary biology literature, it may not be known to the biomedical research community. In this review, we provide an overview of Brachionus rotifers as a model to investigate nutritional and metabolic regulators of aging, with a focus on recent studies of dietary and metabolic pathway manipulation. Rotifers are microscopic, aquatic invertebrates with many advantages as a system for studying aging, including a two-week lifespan, easy laboratory culture, direct development without a larval stage, sexual and asexual reproduction, easy delivery of pharmaceuticals in liquid culture, and transparency allowing imaging of cellular morphology and processes. Rotifers have greater gene homology with humans than do established invertebrate models for aging, and thus rotifers may be used to investigate novel genetic mechanisms relevant to human lifespan and healthspan. The research on caloric restriction; dietary, pharmaceutical, and genetic interventions; and transcriptomics of aging using rotifers provide insights into the metabolic regulators of lifespan and health and suggest future directions for aging research. Capitalizing on the unique biology of Brachionus rotifers, referencing the vast existing literature about the influence of diet and drugs on rotifer lifespan and health, continuing the development of genetic tools for rotifers, and growing the rotifer research community will lead to new discoveries a better understanding of the biology of aging.

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轮虫臂轮虫作为研究衰老的饮食和代谢调节因子的模型。
因为每个物种都有与理解衰老的特定方面相关的独特属性,使用多样化的研究系统和比较生物学方法进行衰老研究有可能导致适用于人类健康的新发现。单体轮虫作为水生生态学、进化生物学和生态毒理学研究的标准模型,也被用于研究寿命和健康跨度近一个世纪。然而,由于这项工作的大部分已经在生态学和进化生物学文献中发表,生物医学研究界可能不知道。在这篇综述中,我们概述了轮虫臂轮虫作为研究衰老的营养和代谢调节因子的模型,重点介绍了饮食和代谢途径操纵的最新研究。轮虫是一种微小的水生无脊椎动物,作为研究衰老的系统具有许多优点,包括两周的寿命,易于实验室培养,无需幼虫阶段直接发育,有性繁殖和无性繁殖,易于在液体培养中输送药物,以及透明的细胞形态和过程成像。与已建立的无脊椎动物衰老模型相比,轮虫与人类的基因同源性更高,因此轮虫可用于研究与人类寿命和健康相关的新遗传机制。热量限制的研究;饮食、药物和基因干预;利用轮虫进行衰老的转录组学研究,为了解寿命和健康的代谢调节因子提供了新的思路,并为衰老研究指明了未来的方向。利用轮虫臂轮虫独特的生物学特性,参考大量关于饮食和药物对轮虫寿命和健康影响的现有文献,继续开发轮虫遗传工具,并发展轮虫研究社区,将导致新的发现,更好地理解衰老生物学。
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来源期刊
Nutrition and Healthy Aging
Nutrition and Healthy Aging Agricultural and Biological Sciences-Food Science
CiteScore
1.70
自引率
0.00%
发文量
17
期刊介绍: Nutrition and Healthy Aging is an international forum for research on nutrition as a means of promoting healthy aging. It is particularly concerned with the impact of nutritional interventions on the metabolic and molecular mechanisms which modulate aging and age-associated diseases, including both biological responses on the part of the organism itself and its micro biome. Results emanating from both model organisms and clinical trials will be considered. With regards to the latter, the journal will be rigorous in only accepting for publication well controlled, randomized human intervention trials that conform broadly with the current EFSA and US FDA guidelines for nutritional clinical studies. The journal will publish research articles, short communications, critical reviews and conference summaries, whilst open peer commentaries will be welcomed.
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