2016
DOI: 10.1007/s00360-016-1050-9
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Life in the fat lane: seasonal regulation of insulin sensitivity, food intake, and adipose biology in brown bears

Abstract: Grizzly bears (Ursus arctos horribilis) have evolved remarkable metabolic adaptations including enormous fat accumulation during the active season followed by fasting during hibernation. However, these fluctuations in body mass do not cause the same harmful effects associated with obesity in humans. To better understand these seasonal transitions, we performed insulin and glucose tolerance tests in captive grizzly bears, characterized the annual profiles of circulating adipokines, and tested the anorectic effe… Show more

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Cited by 71 publications
(115 citation statements)
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“…wild bears and bears in captivity (P.S., unpublished work), suggesting that nutrients and feeding patterns might contribute to the metabolic changes required for hibernation. A transition in energy metabolism from carbohydrates during summer to lipids during winter is facilitated by a switch from insulin sensitivity in the summer to insulin resistance during hibernation (193). The observation that central administration of leptin to captive grizzly bears leads to reduced food intake in October, but not in August, implies that seasonal variations exist in the sensitivity of the bear brain to the anorexic effects of leptin (193).…”
Section: Major Differences Exist In Levels Of Serum Biomarkers Of Micmentioning
confidence: 99%
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“…wild bears and bears in captivity (P.S., unpublished work), suggesting that nutrients and feeding patterns might contribute to the metabolic changes required for hibernation. A transition in energy metabolism from carbohydrates during summer to lipids during winter is facilitated by a switch from insulin sensitivity in the summer to insulin resistance during hibernation (193). The observation that central administration of leptin to captive grizzly bears leads to reduced food intake in October, but not in August, implies that seasonal variations exist in the sensitivity of the bear brain to the anorexic effects of leptin (193).…”
Section: Major Differences Exist In Levels Of Serum Biomarkers Of Micmentioning
confidence: 99%
“…A transition in energy metabolism from carbohydrates during summer to lipids during winter is facilitated by a switch from insulin sensitivity in the summer to insulin resistance during hibernation (193). The observation that central administration of leptin to captive grizzly bears leads to reduced food intake in October, but not in August, implies that seasonal variations exist in the sensitivity of the bear brain to the anorexic effects of leptin (193). In addition, seasonal variations in gut microbiota might also contribute to changes in energy metabolism in hibernating bears, as transplantation of summer gut microbiota from wild bears promoted adiposity without affecting glucose tolerance in germ-free mice (194).…”
Section: Major Differences Exist In Levels Of Serum Biomarkers Of Micmentioning
confidence: 99%
“…Brown bears in the wild, however, may be precluded from foraging to meet such nutritional preferences, because foods high in lipid or carbohydrate necessary to maintain a balanced intake are generally most available during late summer and autumn (Coogan et al., ). That foods available to achieve the optimal macronutrient ratio for primarily fat mass gain co‐occur with the prehibernation hyperphagic period, is suggestive of the functional significance and selective pressures shaping their behavioral dietary preferences; the nutritional and energetic demands necessary for hibernation require the acquisition of sufficient food resources (Rigano et al., ), with higher demands for females birthing cubs (LĂłpez‐Alfaro, Robbins, Zedrosser, & Nielsen, ). It is unclear, however, the extent to which bears regulate their diets in the wild.…”
Section: Introductionmentioning
confidence: 99%
“…Genetic or pharmacological inactivation of CB2 receptor contribute to reduce adipose tissue in ammation, increase insulin sensitivity and skeletal muscle glucose uptake [37,38]. Strikingly, insulin resistance has been described in hibernating bears adipocytes [66]. As bears don't experience health consequences of circannual high body fat storage [67], a reduced CB2 signaling in adipose tissue could dampen adipose tissue in ammation.…”
Section: Discussionmentioning
confidence: 99%