在寿命最短的四足动物中,白细胞谱和端粒缩短的应激相关变化。

IF 3.4 Q1 Agricultural and Biological Sciences
Falk Eckhardt, Angela Pauliny, Nicky Rollings, Frank Mutschmann, Mats Olsson, Cornelia Kraus, Peter M Kappeler
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引用次数: 3

摘要

背景:生命史理论预测,在生物体的生命周期中,资源被分配到生长、体细胞维持或繁殖。资源分配权衡决定了不同生活史策略的进化和生态,并确定了生物在种间比较中沿快-慢连续体的位置。来自马达加斯加季节性干旱森林的拉伯德变色龙(Furcifer labordi)是四足动物中寿命最短的物种(4-9个月)。以往的研究表明,它们的寿命在一定程度上取决于环境因素,如降雨量和植被期的长短。然而,形成如此快速生命史的内在机制仍然未知。众所周知,环境压力会增加其他脊椎动物体内糖皮质激素的分泌,而糖皮质激素反过来又会通过氧化应激缩短端粒。为了研究这些与年龄相关的分子和细胞机制的变化在多大程度上导致了F. labordi相对较短的寿命,我们通过白细胞谱(H/L比)间接评估了应激源的影响,并量化了Kirindy森林野生种群血液样本的相对端粒长度。我们将我们的发现与同域的,但寿命较长的姐妹物种F. cf. nicosiai进行了比较,它们表现出相同的年度繁殖时间,以及在环境条件下单独饲养的野生捕获的F. labordi。结果:我们发现,野生白曲螺旋藻的H/L比值始终高于白曲螺旋藻。此外,F. labordi在3-4个月大的交配季节已经表现出相对较短的端粒,并且在其生殖后的生活中端粒进一步缩短。在活动季节开始时,nicosiai的端粒长度相对较长,但在进入南方冬季时,端粒长度迅速缩短,两种物种逐渐死亡。圈养的蓝藻比野生的蓝藻寿命更长,H/L比更低。结论:我们认为环境胁迫和相应的端粒加速磨损对野生labordi的寿命有深远的影响,并确定了导致其相对早衰老和死亡的生理机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Stress-related changes in leukocyte profiles and telomere shortening in the shortest-lived tetrapod, Furcifer labordi.

Stress-related changes in leukocyte profiles and telomere shortening in the shortest-lived tetrapod, Furcifer labordi.

Stress-related changes in leukocyte profiles and telomere shortening in the shortest-lived tetrapod, Furcifer labordi.

Stress-related changes in leukocyte profiles and telomere shortening in the shortest-lived tetrapod, Furcifer labordi.

Background: Life history theory predicts that during the lifespan of an organism, resources are allocated to either growth, somatic maintenance or reproduction. Resource allocation trade-offs determine the evolution and ecology of different life history strategies and define an organisms' position along a fast-slow continuum in interspecific comparisons. Labord's chameleon (Furcifer labordi) from the seasonal dry forests of Madagascar is the tetrapod species with the shortest reported lifespan (4-9 months). Previous investigations revealed that their lifespan is to some degree dependent on environmental factors, such as the amount of rainfall and the length of the vegetation period. However, the intrinsic mechanisms shaping such a fast life history remain unknown. Environmental stressors are known to increase the secretion of glucocorticoids in other vertebrates, which, in turn, can shorten telomeres via oxidative stress. To investigate to what extent age-related changes in these molecular and cellular mechanisms contribute to the relatively short lifetime of F. labordi, we assessed the effects of stressors indirectly via leukocyte profiles (H/L ratio) and quantified relative telomere length from blood samples in a wild population in Kirindy Forest. We compared our findings with the sympatric, but longer-lived sister species F. cf. nicosiai, which exhibit the same annual timing of reproductive events, and with wild-caught F. labordi that were singly housed under ambient conditions.

Results: We found that H/L ratios were consistently higher in wild F. labordi compared to F. cf. nicosiai. Moreover, F. labordi already exhibited relatively short telomeres during the mating season when they were 3-4 months old, and telomeres further shortened during their post-reproductive lives. At the beginning of their active season, telomere length was relatively longer in F. cf. nicosiai, but undergoing rapid shortening towards the southern winter, when both species gradually die off. Captive F. labordi showed comparatively longer lifespans and lower H/L ratios than their wild counterparts.

Conclusion: We suggest that environmental stress and the corresponding accelerated telomere attrition have profound effects on the lifespan of F. labordi in the wild, and identify physiological mechanisms potentially driving their relatively early senescence and mortality.

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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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