缺氧可延长独居蜜蜂（切叶蜂）的寿命，但不会改变其端粒长度或氧化应激水平。

Hypoxia extends lifespan but does not alter telomere length or oxidative stress in a solitary bee (Megachile rotundata).

作者信息

Szejner-Sigal Andre, Heidinger Britt J, Kucera Aurelia C, Kittilson Jeffrey D, Torson Alex S, Rinehart Joseph P, Yocum George D, Bowsher Julia H, Greenlee Kendra J

机构信息

Biological Sciences Department, North Dakota State University, Fargo, ND 58108-6050, USA.

USDA-ARS Edward T. Schafer Agricultural Research Center, Biosciences Research Laboratory, Fargo, ND 58102, USA.

出版信息

J Exp Biol. 2025 Jun 15;228(12). doi: 10.1242/jeb.250500. Epub 2025 Jun 18.

DOI:10.1242/jeb.250500

PMID:40452427

Abstract

Stress can influence lifespan in both positive and negative ways, depending on exposure intensity and duration. However, mechanisms driving positive stress effects on lifespan remain poorly understood. Prolonged hypoxia extends the lifespan of overwintering prepupal Megachile rotundata. Here, we explored telomere length and reduced oxidative stress as potential mechanisms of this extended lifespan. We hypothesized high antioxidant capacity under hypoxia reduces oxidative damage and telomere loss. We exposed prepupae to 10%, 21% or 24% oxygen for up to 9 months and measured monthly survival, telomere length, antioxidant capacity and lipid peroxidation across treatment duration for prepupae and adults. After 9 months of exposure, survival was highest in hypoxia and lowest in hyperoxia. Telomere length did not differ among oxygen treatments but increased in adults compared with prepupae. Total antioxidant capacity and lipid peroxidation showed no significant differences among oxygen treatments, suggesting compensatory responses to maintain baseline oxidative levels.

摘要

压力可通过积极和消极两种方式影响寿命，这取决于暴露强度和持续时间。然而，驱动压力对寿命产生积极影响的机制仍知之甚少。长时间缺氧可延长越冬前蛹期的苜蓿切叶蜂的寿命。在此，我们探究了端粒长度和氧化应激降低作为这种寿命延长的潜在机制。我们假设缺氧条件下的高抗氧化能力可减少氧化损伤和端粒丢失。我们将前蛹暴露于10%、21%或24%的氧气中长达9个月，并在整个处理期间每月测量前蛹和成虫的存活率、端粒长度、抗氧化能力和脂质过氧化水平。暴露9个月后，缺氧条件下的存活率最高，高氧条件下的存活率最低。不同氧气处理之间的端粒长度没有差异，但成虫的端粒长度比前蛹有所增加。总抗氧化能力和脂质过氧化在不同氧气处理之间没有显著差异，表明存在补偿反应以维持基线氧化水平。

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缺氧可延长独居蜜蜂（切叶蜂）的寿命，但不会改变其端粒长度或氧化应激水平。

Hypoxia extends lifespan but does not alter telomere length or oxidative stress in a solitary bee (Megachile rotundata).

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