Early-life glucocorticoids accelerate lymphocyte count senescence in roe deer

IF 2.1 3区 医学 Q3 ENDOCRINOLOGY & METABOLISM General and comparative endocrinology Pub Date : 2024-07-24 DOI:10.1016/j.ygcen.2024.114595
Lucas D. Lalande , Gilles Bourgoin , Jeffrey Carbillet , Louise Cheynel , François Debias , Hubert Ferté , Jean-Michel Gaillard , Rebecca Garcia , Jean-François Lemaître , Rupert Palme , Maryline Pellerin , Carole Peroz , Benjamin Rey , Pauline Vuarin , Emmanuelle Gilot-Fromont
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Abstract

Immunosenescence corresponds to the progressive decline of immune functions with increasing age. Although it is critical to understand what modulates such a decline, the ecological and physiological drivers of immunosenescence remain poorly understood in the wild. Among them, the level of glucocorticoids (GCs) during early life are good candidates to modulate immunosenescence patterns because these hormones can have long-term consequences on individual physiology. Indeed, GCs act as regulators of energy allocation to ensure allostasis, are part of the stress response triggered by unpredictable events and have immunosuppressive effects when chronically elevated. We used longitudinal data collected over two decades in two populations of roe deer (Capreolus capreolus) to test whether higher baseline GC levels measured within the first year of life were associated with a more pronounced immunosenescence and parasite susceptibility. We first assessed immunosenescence trajectories in these populations facing contrasting environmental conditions. Then, we found that juvenile GC levels can modulate lymphocyte trajectory. Lymphocyte depletion was accelerated late in life when GCs were elevated early in life. Although the exact mechanism remains to be elucidated, it could involve a role of GCs on thymic characteristics. In addition, elevated GC levels in juveniles were associated with a higher abundance of lung parasites during adulthood for individuals born during bad years, suggesting short-term negative effects of GCs on juvenile immunity, having in turn long-lasting consequences on adult parasite load, depending on juvenile environmental conditions. These findings offer promising research directions in assessing the carry-over consequences of GCs on life-history traits in the wild.

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生命早期的糖皮质激素加速了狍子淋巴细胞数量的衰老。
免疫衰老是指随着年龄的增长,免疫功能逐渐下降。尽管了解是什么因素调节了这种衰退至关重要,但对野生动物免疫衰老的生态和生理驱动因素仍然知之甚少。其中,生命早期的糖皮质激素(GCs)水平是调节免疫衰老模式的良好候选因素,因为这些激素会对个体生理产生长期影响。事实上,糖皮质激素是能量分配的调节剂,可确保异位平衡,是不可预测事件引发的应激反应的一部分,并且在长期升高时具有免疫抑制作用。我们利用在两个狍子种群中收集到的长达二十年的纵向数据,检验了在狍子出生后第一年测量到的较高基线 GC 水平是否与更明显的免疫衰老和寄生虫易感性有关。我们首先评估了这些面临截然不同环境条件的种群的免疫衰老轨迹。然后,我们发现幼年的 GC 水平可以调节淋巴细胞的轨迹。当 GC 在生命早期升高时,淋巴细胞在生命晚期会加速耗竭。虽然确切的机制仍有待阐明,但这可能与 GCs 对胸腺特征的作用有关。此外,幼年时期 GC 水平的升高与坏年出生的个体成年后肺部寄生虫数量的增加有关,这表明 GC 对幼年时期的免疫力有短期的负面影响,反过来又会对成年后的寄生虫数量产生长期影响,这取决于幼年时期的环境条件。这些发现为评估GCs对野外生活史特征的影响提供了很有前景的研究方向。
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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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