Down-regulating the stress axis: Living in the present while preparing for the future

IF 2.1 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM General and comparative endocrinology Pub Date : 2024-04-27 DOI:10.1016/j.ygcen.2024.114541
Vincent A. Viblanc , Sylvia Pardonnet , Anouch Tamian , Laura K. McCaw , F. Stephen Dobson , Rudy Boonstra
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Abstract

The measurement of glucocorticoid (GC) hormones provides us with a window into the stress physiology of vertebrates and the adaptative responses they use to cope with predictable and unpredictable changes in the environment. Baseline GCs inform us about the metabolic demands they are subject to at that point in their yearly life-history stage, whereas GC changes (often increases) in response to acute challenges inform us on their capacity to cope with more immediate environmental challenges. However, baseline GC levels and the kinetics of GC responses to acute stressors can vary substantially among and within species, depending on individual characteristics (age, sex, condition, life-history stage). In addition, a thorough understanding of the stress status of an animal requires moving beyond the measurement of GCs alone by focusing on downstream measures of metabolic activation, such as oxidative stress. Here, we evaluated the changes in blood cortisol and oxidative stress markers in wild adult Columbian ground squirrels (Urocitellus columbianus), following a 30-min capture-handling stress performed in mid-late June. Measurements were taken when males were post-reproductive and preparing for hibernation and adult females were weaning litters. We found three key results. First, the time-course of GC increase was markedly slower (by an order of magnitude) than what is currently reported in the literature for most species of mammals, birds and reptiles. Second, there were marked differences in the male and female response, linked to differences in life-history stage: females close to weaning had abolished GC responses, whereas post-reproductive males did not. Third, there were mild to moderate increases in oxidative damage and decreases in oxidative defenses in response to our short-term challenge, consistent with the idea that short-term acute metabolic activation may carry physiological costs. However, these changes were not correlated to the changes in GCs, a novel result suggesting a disconnect between the hormonal stress response and oxidative damage.

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下调压力轴活在当下,准备未来
糖皮质激素(GC)的测量为我们提供了一个窗口,让我们了解脊椎动物的应激生理以及它们用来应对环境中可预测和不可预测变化的适应性反应。基线 GCs 能让我们了解它们在一年的生命史阶段中的新陈代谢需求,而 GC 在应对急性挑战时的变化(通常是增加)则能让我们了解它们应对更直接的环境挑战的能力。然而,由于个体特征(年龄、性别、状况、生命史阶段)的不同,物种之间和物种内部的基线 GC 水平以及 GC 对急性应激源的反应动力学会有很大差异。此外,要全面了解动物的应激状态,就不能仅仅测量 GCs,还需要关注代谢激活的下游指标,如氧化应激。在这里,我们评估了野生成年哥伦布地松鼠(Urocitellus columbianus)在六月中下旬接受 30 分钟捕捉处理应激后血液皮质醇和氧化应激标记物的变化。测量是在雄性松鼠繁殖后准备冬眠和成年雌性松鼠断奶时进行的。我们发现了三个关键结果。首先,与目前大多数哺乳动物、鸟类和爬行动物物种的文献报道相比,GC 增加的时间过程明显较慢(慢了一个数量级)。其次,雄性和雌性的反应存在明显差异,这与生命史阶段的不同有关:即将断奶的雌性对 GC 的反应消失了,而生殖后的雄性则没有。第三,在我们的短期挑战中,氧化损伤轻度至中度增加,氧化防御能力下降,这与短期急性代谢激活可能带来生理代价的观点一致。然而,这些变化与 GCs 的变化无关,这一新颖的结果表明激素应激反应与氧化损伤之间存在脱节。
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来源期刊
General and comparative endocrinology
General and comparative endocrinology 医学-内分泌学与代谢
CiteScore
5.60
自引率
7.40%
发文量
120
审稿时长
2 months
期刊介绍: General and Comparative Endocrinology publishes articles concerned with the many complexities of vertebrate and invertebrate endocrine systems at the sub-molecular, molecular, cellular and organismal levels of analysis.
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