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Physiological and Genetic Basis of High-Altitude Indigenous Animals’ Adaptation to Hypoxic Environments

Pengfei Zhao, Shaobin Li, Zhaohua He, Xiong Ma

2024Animals18 citationsDOIOpen Access PDF

Abstract

Adaptation is one of the fundamental characteristics of life activities; humans and animals inhabiting high altitudes are well adapted to hypobaric hypoxic environments, and studies on the mechanisms of this adaptation emerged a hundred years ago. Based on these studies, this paper reviews the adaptive changes in hypoxia-sensitive tissues and organs, as well as at the molecular genetic level, such as pulmonary, cardiovascular, O2-consuming tissues, and the hemoglobin and HIF pathway, that occur in animals in response to the challenge of hypobaric hypoxia. High-altitude hypoxia adaptation may be due to the coordinated action of genetic variants in multiple genes and, as a result, adaptive changes in multiple tissues and organs at the physiological and biochemical levels. Unraveling their mechanisms of action can provide a reference for the prevention and treatment of multiple diseases caused by chronic hypoxia.

Topics & Concepts

Adaptation (eye)Hypoxia (environmental)BiologyEffects of high altitude on humansAltitude (triangle)IndigenousEvolutionary biologyPhysiologyEcologyNeuroscienceAnatomyChemistryOxygenOrganic chemistryMathematicsGeometryHigh Altitude and HypoxiaNeuroscience of respiration and sleepAdipose Tissue and Metabolism