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Title: | Superior intrinsic mitochondrial respiration in women than in men | Authors: | Cardinale, Daniele A. Larsen, Filip J. Schiffer, Tomas A. Morales-Alamo, David Ekblom, Björn Boushel, Robert López Calbet, José Antonio Holmberg, Hans-Christer |
UNESCO Clasification: | 241110 Fisiología del músculo | Keywords: | Sexual dimorphism Mitochondria Endurance performance Mitochondrial function Skeletal muscle, et al |
Issue Date: | 2018 | Publisher: | 1664-042X | Journal: | Frontiers in Physiology | Abstract: | Sexual dimorphism is apparent in humans, however, to date no studies have investigated mitochondria! function focusing on intrinsic mitochondrial respiration (i.e., mitochondrial respiration for a given amount of mitochondrial protein) and mitochondrial oxygen affinity (p50(mito)) in relation to biological sex in human. A skeletal muscle biopsy was donated by nine active women, and ten men matched for maximal oxygen consumption (VO2max) and by nine endurance trained men. Intrinsic mitochondrial respiration, assessed in isolated mitochondria, was higher in women compared to men when activating complex I (Cl-p) and complex I+II(Cl+IIp) (p < 0.05), and was similar to trained men (Cl-p, p = 0.053; Cl+IIp, p = 0.066). Proton leak and p50(mito) to were higher in women compared to men independent of VO2max. In conclusion, significant novel differences in mitochondrial oxidative function, intrinsic mitochondrial respiration and p50(mito) to exist between women and men. These findings may represent an adaptation in the oxygen cascade in women to optimize muscle oxygen uptake to compensate for a lower oxygen delivery during exercise. | URI: | http://hdl.handle.net/10553/42168 | ISSN: | 1664-042X | DOI: | 10.3389/fphys.2018.01133 | Source: | Frontiers in Physiology [ISSN 1664-042X], v. 9, article number 1133 |
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