高原习服、血红蛋白-氧亲和力和低氧环境中的循环氧输送。
Altitude acclimatization, hemoglobin-oxygen affinity, and circulatory oxygen transport in hypoxia.
机构信息
School of Biological Sciences, University of Nebraska, Lincoln, NE, USA.
School of Biological Sciences, University of Nebraska, Lincoln, NE, USA.
出版信息
Mol Aspects Med. 2022 Apr;84:101052. doi: 10.1016/j.mam.2021.101052. Epub 2021 Dec 5.
Abstract
In mammals and other air-breathing vertebrates that live at high altitude, adjustments in convective O transport via changes in blood hemoglobin (Hb) content and/or Hb-O affinity can potentially mitigate the effects of arterial hypoxemia. However, there are conflicting views about the optimal values of such traits in hypoxia, partly due to the intriguing observation that hypoxia-induced acclimatization responses in humans and other predominantly lowland mammals are frequently not aligned in the same direction as evolved phenotypic changes in high-altitude natives. Here we review relevant theoretical and empirical results and we highlight experimental studies of rodents and humans that provide insights into the combination of hematological changes that help attenuate the decline in aerobic performance in hypoxia. For a given severity of hypoxia, experimental results suggest that optimal values for hematological traits are conditional on the states of other interrelated phenotypes that govern different steps in the O-transport pathway.
摘要
在生活在高海拔地区的哺乳动物和其他需空气呼吸的脊椎动物中,通过改变血液血红蛋白 (Hb) 含量和/或 Hb-O 亲和力来调节对流 O 运输,可以潜在减轻动脉低氧血症的影响。然而,对于这些特征在低氧环境中的最佳值存在相互矛盾的观点,部分原因是一个有趣的观察结果,即人类和其他主要生活在低地的哺乳动物在低氧诱导的适应反应通常与高海拔本地人的进化表型变化不一致。在这里,我们回顾了相关的理论和经验结果,并强调了啮齿动物和人类的实验研究,这些研究提供了深入了解有助于减轻低氧环境中有氧性能下降的血液变化组合的见解。对于给定严重程度的低氧,实验结果表明,血液特征的最佳值取决于其他相互关联的表型状态,这些表型状态决定了 O 运输途径中的不同步骤。
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