Abstract
Prior to winter, heterotherms retain polyunsaturated fatty acids (“PUFA”), resulting in enhanced energy savings during hibernation, through deeper and longer torpor bouts. Hibernating bears exhibit a less dramatic reduction (2–5°C) in body temperature, but lower their metabolism to a degree close to that of small hibernators. We determined the lipid composition, via lipidomics, in skeletal muscle and white adipose tissues (“WAT”), to assess lipid retention, and in blood plasma, to reflect lipid trafficking, of winter hibernating and summer active wild Scandinavian brown bears (Ursus arctos). We found that the proportion of monounsaturated fatty acids in muscle of bears was significantly higher during winter. During hibernation, omega-3 PUFAs were retained in WAT and short-length fatty acids were released into the plasma. The analysis of individual lipid moieties indicated significant changes of specific fatty acids, which are in line with the observed seasonal shift in the major lipid categories and can be involved in specific regulations of metabolisms. These results strongly suggest that the shift in lipid composition is well conserved among hibernators, independent of body mass and of the animals’ body temperature.
Highlights
Lipids are found under many different forms in the organism and have pleiotropic actions in the regulation of metabolisms
We found significantly lower monounsaturated fatty acid (MUFA)-saturated fatty acid (SFA), polyunsaturated fatty acids (PUFA)-SFA, and unsaturated fatty acids (USFA)-SFA plasma ratios in bears during winter hibernation compared to active summer (Supplementary Figure S1 and Table 3)
Proportions of ω3 PUFA tended to be higher in white adipose tissue (WAT) and lower in plasma in bears during winter compared to animals in summer (Table 3 and Supplementary Table S2)
Summary
Lipids are found under many different forms in the organism and have pleiotropic actions in the regulation of metabolisms. There is evidence indicating that high amounts of dietary oleic acid (C18:1ω9) can partly (Geiser et al, 1994) or even fully (Frank and Storey, 1996) compensate for low omega-6 fatty acid intake and that this monounsaturated fatty acid (“MUFA”) leads to increased torpor bout duration and decreased Tb during hibernation. Feeding omega-6 PUFA-enriched diets did not enhance torpor in all species (Munro and Thomas, 2004) and, interestingly, diets enriched with omega-3 fatty acids appear to reduce the propensity of individuals to enter torpor and to hibernate (Hill and Florant, 2000; Giroud et al, 2018b)
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