抗糖化性和生命史特征:从非常规动物模型中汲取的教训。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-06-12 DOI:10.1098/rsbl.2023.0601
Cyrielle Duval, François Criscuolo, Fabrice Bertile
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引用次数: 0

摘要

糖化反应在衰老过程中起着关键作用,并与许多与年龄有关的病症(如糖尿病并发症或阿尔茨海默病)有关。因此,过去有关糖化的研究大多集中在人类和用于医学目的的实验动物模型上。人们对野生动物的糖化及其与衰老的关系知之甚少。然而,尽管以高糖食物为食,一些蝙蝠和鸟类物种却很长寿,似乎能逃脱高血糖的毒性影响。对这些模型的研究可以开辟新的途径,既能了解与抗糖化共同进化的机制,又能治疗糖化对人类的破坏性影响。在少数野生物种中,我们对糖血症与动物生活节奏代用指标的相关性有了新的认识;然而,我们对这些物种的抗糖化能力以及糖化、物种生活史特征和个体适应性之间的关系几乎一无所知。我们的综述总结了目前在非常规动物模型中有关糖化与生命史特征之间联系的稀缺知识,强调了鸟类研究的主导地位。我们还研究了参与糖化调控的一些关键分子和生理参数,这些参数为今后研究个体的适应性和衰老带来了希望。
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Glycation resistance and life-history traits: lessons from non-conventional animal models.

Glycation reactions play a key role in the senescence process and are involved in numerous age-related pathologies, such as diabetes complications or Alzheimer's disease. As a result, past studies on glycation have mostly focused on human and laboratory animal models for medical purposes. Very little is known about glycation and its link to senescence in wild animal species. Yet, despite feeding on high-sugar diets, several bat and bird species are long-lived and seem to escape the toxic effects of high glycaemia. The study of these models could open new avenues both for understanding the mechanisms that coevolved with glycation resistance and for treating the damaging effects of glycations in humans. Our understanding of glycaemia's correlation to proxies of animals' pace of life is emerging in few wild species; however, virtually nothing is known about their resistance to glycation, nor on the relationship between glycation, species' life-history traits and individual fitness. Our review summarizes the scarce current knowledge on the links between glycation and life-history traits in non-conventional animal models, highlighting the predominance of avian research. We also investigate some key molecular and physiological parameters involved in glycation regulation, which hold promise for future research on fitness and senescence of individuals.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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