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Target Concepts:
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Query: UMLS:C0020505 (
hyperphagia
)
6,116
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Sprague-Dawley rats were injected for 16 d with long-acting insulin, and energy balance was calculated using the comparative carcass technique. Two experiments were carried out with females (starting weights 150 and 90 g respectively), and one with males (starting weight 150 g). In a fourth experiment,
cytochrome c oxidase
(EC 1.9.3.1) activity was measured as an indicator of the capacity for substrate oxidation. 2. Insulin increased weight gain by up to 57% (P less than 0.01 for all studies). Metabolizable energy intake (kJ/d) was also consistently higher in the treated groups, by up to 34% (P less than 0.01 for all studies). The excess weight gained by the insulin-treated rats was predominantly due to fat deposition. 3. Energy expenditure, calculated as the difference between metabolizable intake and carcass energy gain, was expressed on a whole-body basis, or relative to either metabolic body size (kg body-weight0.75) or fat-free mass. Insulin consistently raised energy expenditure, regardless of the method of expression, but this change reached statistical significance in only two of the nine comparisons. 4. Cytochrome c oxidase activity was not affected by insulin treatment in either interscapular brown adipose tissue or gastrocnemius muscle. In liver, total enzyme activity (U/tissue) was increased from 2928 (SE 162) in the controls to 3940 (SE 294) in the treated group (P less than 0.02), but specific activity (U/mg protein) was unchanged. 5. It is concluded that, despite causing substantial
hyperphagia
, insulin treatment only slightly increases energy expenditure in rats. The costs of increased tissue deposition may account for this change.
...
PMID:Energy balance in rats given chronic hormone treatment. 1. Effects of long-acting insulin. 254 25
Syrian hamsters (Mesocricetus auratus) were fed a high-fat (HF) diet for up to 16 wk. Sympathetic and thermogenic activities in their brown adipose tissue (BAT) were assessed by measuring norepinephrine content and turnover and mitochondrial GDP binding and
cytochrome c oxidase
activity. Chronic ingestion of the HF diet resulted in significant increases in carcass lipid and interscapular BAT wet weight by the end of the second week. HF-fed hamsters were slightly hyperphagic during the first 2 wk of HF feeding only. Significant weight gains persisted beyond the period of
hyperphagia
. Hypertrophy of interscapular BAT after 16 wk on the HF diet was accompanied by increases in protein and DNA content, indicating growth of functional tissue. Norepinephrine turnover and content in BAT were decreased throughout the entire period of HF feeding, regardless of changes in caloric intake or body weight. Mitochondrial
cytochrome c oxidase
activity and GDP binding were increased after 16 wk on the HF diet, a time when the HF-fed animals were obese but not hyperphagic. These results demonstrate a dissociation of BAT thermogenesis from sympathetic activity in the tissue. It appears that sympathetic nervous system activity in BAT was suppressed by the HF diet, whereas thermogenic activity of the tissue was activated when the hamsters became obese.
...
PMID:Dissociation of sympathetic and thermogenic activity in brown fat of Syrian hamsters. 300 19
Polar bears (Ursus maritimus) face extremely cold temperatures and periods of fasting, which might result in more severe energetic challenges than those experienced by their sister species, the brown bear (U. arctos). We have examined the mitochondrial and nuclear genomes of polar and brown bears to investigate whether polar bears demonstrate lineage-specific signals of molecular adaptation in genes associated with cellular respiration/energy production. We observed increased evolutionary rates in the mitochondrial cytochrome c oxidase I gene in polar but not brown bears. An amino acid substitution occurred near the interaction site with a nuclear-encoded subunit of the
cytochrome c oxidase
complex and was predicted to lead to a functional change, although the significance of this remains unclear. The nuclear genomes of brown and polar bears demonstrate different adaptations related to cellular respiration. Analyses of the genomes of brown bears exhibited substitutions that may alter the function of proteins that regulate glucose uptake, which could be beneficial when feeding on carbohydrate-dominated diets during
hyperphagia
, followed by fasting during hibernation. In polar bears, genes demonstrating signatures of functional divergence and those potentially under positive selection were enriched in functions related to production of nitric oxide (NO), which can regulate energy production in several different ways. This suggests that polar bears may be able to fine-tune intracellular levels of NO as an adaptive response to control trade-offs between energy production in the form of adenosine triphosphate versus generation of heat (thermogenesis).
...
PMID:Polar bears exhibit genome-wide signatures of bioenergetic adaptation to life in the arctic environment. 2450 87
