线粒体效率的差异解释了生长性能的个体差异

K. Salin, Eugenia M. Villasevil, Graeme J. Anderson, S. Lamarre, Chloé A. Melanson, I. McCarthy, C. Selman, N. Metcalfe
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引用次数: 36

摘要

种内适应性成分差异的生理原因,如生长速度,目前是一个争论的来源。有人认为,能量代谢的差异可能会驱动生长的变化,但目前尚不清楚生长速率和能量代谢之间的共变是否:(i)某些个体获取并因此分配更多资源用于生长的结果,和/或(ii)由这些资源转化为生长的效率的变化决定。在标准化营养条件下单独饲养的动物的研究可以帮助阐明这一争论。在这里,我们根据肝脏和肌肉线粒体消耗的每分子氧产生的三磷酸腺苷(ATP)的数量来量化代谢效率的个体差异,并检查其对这些组织内蛋白质合成率和单独喂养的幼褐鳟(Salmo trutta)接受高或低食物配给的全身生长速度的影响。正如预期的那样,高日粮的鱼的平均体重和蛋白质含量比低日粮的鱼增加得更多。然而,相同日粮的个体之间的生长性能差异超过10倍,导致一些低日粮的鱼比其他高日粮的鱼生长得快。给定日粮的这种生长变化与线粒体特性的个体差异有关:高的全身生长性能与肝脏中ATP生产的高线粒体效率有关。据我们所知,我们的研究结果首次表明,在个体差异中,底物转化为ATP的效率可以帮助解释生长性能的显著差异,而不依赖于食物摄入量。这项研究强调了线粒体效率的个体间差异的存在及其对解释全动物生产性能的种内差异的潜在重要性。
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Differences in mitochondrial efficiency explain individual variation in growth performance
The physiological causes of intraspecific differences in fitness components such as growth rate are currently a source of debate. It has been suggested that differences in energy metabolism may drive variation in growth, but it remains unclear whether covariation between growth rates and energy metabolism is: (i) a result of certain individuals acquiring and consequently allocating more resources to growth, and/or is (ii) determined by variation in the efficiency with which those resources are transformed into growth. Studies of individually housed animals under standardized nutritional conditions can help shed light on this debate. Here we quantify individual variation in metabolic efficiency in terms of the amount of adenosine triphosphate (ATP) generated per molecule of oxygen consumed by liver and muscle mitochondria and examine its effects, both on the rate of protein synthesis within these tissues and on the rate of whole-body growth of individually fed juvenile brown trout (Salmo trutta) receiving either a high or low food ration. As expected, fish on the high ration on average gained more in body mass and protein content than those maintained on the low ration. Yet, growth performance varied more than 10-fold among individuals on the same ration, resulting in some fish on low rations growing faster than others on the high ration. This variation in growth for a given ration was related to individual differences in mitochondrial properties: a high whole-body growth performance was associated with high mitochondrial efficiency of ATP production in the liver. Our results show for the first time, to our knowledge, that among-individual variation in the efficiency with which substrates are converted into ATP can help explain marked variation in growth performance, independent of food intake. This study highlights the existence of inter-individual differences in mitochondrial efficiency and its potential importance in explaining intraspecific variation in whole-animal performance.
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