State Key Laboratory of Molecular Developmental Biology, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Chaoyang, Beijing, China.
Department of Medicine, University of Wisconsin-Madison, USA.
J Gerontol A Biol Sci Med Sci. 2021 Mar 31;76(4):547-551. doi: 10.1093/gerona/glab041.
The main purpose of research in mice is to explore metabolic changes in animal models and then predict or propose potential translational benefits in humans. Although some researchers in the brain research field have mentioned that the mouse experiments results still lack the complex neuroanatomy of humans, caution is required to interpret the findings. In mice, we observed in article seventeenth of the series of the effects of graded levels of calorie restriction, metabolomic changes in the cerebellum indicated activation of hypothalamocerebellar connections driven by hunger responses. Therefore, the purpose of the current perspective is to set this latest paper into a wider context of the physiological, behavioral, and molecular changes seen in these mice and to compare and contrast them with previous human studies.
研究老鼠的主要目的是探索动物模型中的代谢变化,然后预测或提出人类可能具有的潜在转化益处。尽管一些大脑研究领域的研究人员提到,老鼠实验的结果仍然缺乏人类复杂的神经解剖结构,但在解释研究结果时需要谨慎。在老鼠中,我们在第十七篇文章中观察到,在卡路里限制的不同水平的影响下,小脑的代谢组学变化表明,由饥饿反应驱动的下丘脑-小脑连接被激活。因此,本观点的目的是将最新的这篇论文置于更广泛的生理、行为和分子变化背景下,并与之前的人类研究进行比较。