A surge in endogenous spermidine is essential for rapamycin-induced autophagy and longevity.

Autophagy Pub Date : 2024-12-01 Epub Date: 2024-09-12 DOI:10.1080/15548627.2024.2396793
Sebastian J Hofer, Ioanna Daskalaki, Mahmoud Abdellatif, Ulrich Stelzl, Simon Sedej, Nektarios Tavernarakis, Guido Kroemer, Frank Madeo
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Abstract

Acute nutrient deprivation (fasting) causes an immediate increase in spermidine biosynthesis in yeast, flies, mice and humans, as corroborated in four independent clinical studies. This fasting-induced surge in spermidine constitutes the critical first step of a phylogenetically conserved biochemical cascade that leads to spermidine-dependent hypusination of EIF5A (eukaryotic translation initiation factor 5A), which favors the translation of the pro-macroautophagic/autophagic TFEB (transcription factor EB), and hence an increase in autophagic flux. We observed that genetic or pharmacological inhibition of the spermidine increase by inhibition of ODC1 (ornithine decarboxylase 1) prevents the pro-autophagic and antiaging effects of fasting in yeast, nematodes, flies and mice. Moreover, knockout or knockdown of the enzymes required for EIF5A hypusination abolish fasting-mediated autophagy enhancement and longevity extension in these organisms. Of note, autophagy and longevity induced by rapamycin obey the same rule, meaning that they are tied to an increase in spermidine synthesis. These findings indicate that spermidine is not only a "caloric restriction mimetic" in the sense that its supplementation mimics the beneficial effects of nutrient deprivation on organismal health but that it is also an obligatory downstream effector of the antiaging effects of fasting and rapamycin.Abbreviation: EIF5A: eukaryotic translation initiation factor 5A; IGF1: insulin like growth factor 1; MTOR: mechanistic target of rapamycin kinase; ODC1: ornithine decarboxylase 1; TFEB: transcription factor EB.

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内源性精胺的激增对雷帕霉素诱导的自噬和长寿至关重要。
在酵母、苍蝇、小鼠和人类中,急性营养剥夺(禁食)会立即导致精胺生物合成的增加,这一点已在四项独立的临床研究中得到证实。这种禁食诱导的亚精胺激增是系统发育保守的生化级联的关键第一步,它导致亚精胺依赖性的 EIF5A(真核生物翻译起始因子 5A)低化,而 EIF5A 有利于促大型自噬/自噬 TFEB(转录因子 EB)的翻译,从而增加自噬通量。我们观察到,在酵母、线虫、苍蝇和小鼠体内,通过抑制 ODC1(鸟氨酸脱羧酶 1)来遗传或药物抑制精胺的增加,可以防止禁食产生的促自噬和抗衰老效应。此外,在这些生物体中,敲除或抑制 EIF5A 氧化所需的酶也会导致禁食介导的自噬增强和寿命延长。值得注意的是,雷帕霉素诱导的自噬和长寿遵循相同的规则,即它们与精胺合成的增加有关。这些研究结果表明,精胺不仅是一种 "热量限制模拟物",即通过补充精胺来模拟营养剥夺对生物体健康的有益影响,而且它还是禁食和雷帕霉素抗衰老效应的强制性下游效应物。
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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