Integrating Physiology and Genomics to Reveal Functional Adaptation in High-Altitude Tibetans
University Of California, San Diego, La Jolla CA
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Abstract
DESCRIPTION (provided by applicant): Most humans living at altitudes above 4000m develop polycythemia, classically thought of as an adaptation to enhance O2 transport and hence muscular performance. It is thus surprising to find that many healthy Tibetan high altitude natives are not polycythemic. Our recent work has shown that loss of polycythemia is associated with positive selection resulting from adaption in several genes, especially those related to hypoxia. Our preliminary physiological studies have shown that enhanced exercise capacity is associated with increased cardiac output and diffusive transport of oxygen in muscle, although the precise genetic underpinnings and the order of selective events are unknown. We hypothesize that polycythemia is a misguided response to altitude and that native Tibetan highlanders have evolutionary changes related to cardiac and muscle structure/function, in addition to potential alterations in ventilatory responses that have enabled their successful existence despite physiological challenges of high-altitude hypoxia. We will test these hypotheses in both a physiological and genomics context by determining: 1) if our previous associations between exercise capacity and O2 transport pathway conductances are associated with [Hb] in Tibetan females and Han Chinese of both sexes and whether adaptive haplotypes are correlated with these physiological data; 2) whether structural/functional alterations in heart and muscle are related to our physiological findings in Aim 1 and whether resting hypoxic and hypercapnic ventilatory responses are associated with [Hb] in Tibetan men and women; and 3) if precise genetic variants relate to the above physiological measurements and/or [Hb] and decipher the order of selective events that have occurred over evolutionary time.
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