25 research outputs found

    Effects of selective breeding for increased wheel-running behavior on circadian timing of substrate oxidation and ingestive behavior

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    Fluctuations in substrate preference and utilization across the circadian cycle may be influenced by the degree of physical activity and nutritional status. In the present study, we assessed these relationships in control mice and in mice from a line selectively bred for high voluntary wheel-running behavior, either when feeding a carbohydrate-rich/low-fat (LF) or a high-fat (HF) diet. Housed without wheels, selected mice, and in particular the females, exhibited higher cage activity than their non-selected controls during the dark phase and at the onset of the light phase, irrespective of diet. This was associated with increases in energy expenditure in both sexes of the selection line. In selected males, carbohydrate oxidation appeared to be increased compared to controls. In contrast, selected females had profound increases in fat oxidation above the levels in control females to cover the increased energy expenditure during the dark phase. This is remarkable in light of the finding that the selected mice, and in particular the females showed higher preference for the LF diet relative to controls. It is likely that hormonal and/or metabolic signals increase carbohydrate preference in the selected females, which may serve optimal maintenance of cellular metabolism in the presence of augmented fat oxidation. (C) 2010 Elsevier Inc. All rights reserved

    Limits to sustained energy intake XXVIII : Beneficial effects of high dietary fat on lactation performance in mice

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    JKA was supported by a scholarship from the government of the Republic of Ghana. LMV was supported by a Rubicon grant from the Netherlands Organisation for Scientific Research (NWO).Peer reviewedPublisher PD

    Limits to sustained energy intake XXIV : impact of suckling behaviour on the body temperatures of lactating female mice

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    We would like to thank the animal house staff and all members of the Energetics group for their invaluable help at various stages throughout the project. This work was supported by Natural Environment Research Council grant (NERC, NE/C004159/1). YG was supported by a scholarship from the rotary foundation. LV was supported by a Rubicon grant from the Netherlands Scientific Organisation (NWO).Peer reviewedPublisher PD

    Plasma adiponectin is increased in mice selectively bred for high wheel-running activity, but not by wheel running per se

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    Mice selectively bred for high wheel-running activity (S) have decreased fat content compared to mice from randomly bred control (C) lines. We explored whether this difference was associated with alterations in levels of circulating hormones involved in regulation of food intake and energy balance, and whether alterations were caused by the presence of a running wheel. Plasma levels of leptin, adiponectin, and corticosterone as well as body composition were analyzed in male S mice housed with (+) and without (-) access to running wheels at ages of 10 and 18 months. These levels were compared to those found in C + mice. Plasma corticosterone did not differ among groups. While plasma leptin levels tended to be lower in S + mice as compared to S - or C + mice, these differences were largely attributable to differences in fat content. Adiponectin levels were increased in S mice (+60%) compared to C mice, irrespective of wheel access. High levels of this hormone may be a trait co-segregated in mice bred for high wheel-running activity

    Does metabolic compensation explain the majority of less-than-expected weight loss in obese adults during a short-term severe diet and exercise intervention?

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    Objective: We investigated to what extent changes in metabolic rate and composition of weight loss explained the less-than-expected weight loss in obese men and women during a diet-plus-exercise intervention. Design: 16 obese men and women (41 ± 9 years; BMI 39 ± 6 kg/m2) were investigated in energy balance before, after and twice during a 12-week VLED (565–650 kcal/day) plus exercise (aerobic plus resistance training) intervention. The relative energy deficit (EDef) from baseline requirements was severe (74-87%). Body composition was measured by deuterium dilution and DXA and resting metabolic rate (RMR) by indirect calorimetry. Fat mass (FM) and fat-free mass (FFM) were converted into energy equivalents using constants: 9.45 kcal/gFM and 1.13 kcal/gFFM. Predicted weight loss was calculated from the energy deficit using the '7700 kcal/kg rule'. Results: Changes in weight (-18.6 ± 5.0 kg), FM (-15.5 ± 4.3 kg), and FFM (-3.1 ± 1.9 kg) did not differ between genders. Measured weight loss was on average 67% of the predicted value, but ranged from 39 to 94%. Relative EDef was correlated with the decrease in RMR (R=0.70, P<0.01) and the decrease in RMR correlated with the difference between actual and expected weight loss (R=0.51, P<0.01). Changes in metabolic rate explained on average 67% of the less-than-expected weight loss, and variability in the proportion of weight lost as FM accounted for a further 5%. On average, after adjustment for changes in metabolic rate and body composition of weight lost, actual weight loss reached 90% of predicted values. Conclusion: Although weight loss was 33% lower than predicted at baseline from standard energy equivalents, the majority of this differential was explained by physiological variables. While lower-than-expected weight loss is often attributed to incomplete adherence to prescribed interventions, the influence of baseline calculation errors and metabolic down-regulation should not be discounted

    Can Rodent Longevity Studies be Both Short and Powerful?

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    Many rodent experiments have assessed effects of diets, drugs, genes, and other factors on life span. A challenge with such experiments is their long duration, typically over 3.5 years given rodent life spans, thus requiring significant time costs until answers are obtained. We collected longevity data from 15 rodent studies and artificially truncated them at 2 years to assess the extent to which one will obtain the same answer regarding mortality effects. When truncated, the point estimates were not significantly different in any study, implying that in most cases, truncated studies yield similar estimates. The median ratio of variances of coefficients for truncated to full-length studies was 3.4, implying that truncated studies with roughly 3.4 times as many rodents will often have equivalent or greater power. Cost calculations suggest that shorter studies will be more expensive but perhaps not so much to not be worth the reduced time

    Metabolic and behavioral responses to high-fat feeding in mice selectively bred for high wheel-running activity

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    Objective: Increased dietary fat intake is a precipitating factor for the development of obesity and associated metabolic disturbances. Physically active individuals generally have a reduced risk of developing these unhealthy states, but the underlying mechanisms are poorly understood. In the present study, we investigated the effects of feeding a high-fat diet (HFD) on obesity development and fuel homeostasis in male and female mice with a trait for increased physical activity and in their controls. Methods: Male and female mice selectively bred for a high level of wheel running behavior over 30 generations and nonselected controls (background strain Hsd:ICR) were maintained on a standard lab chow high-carbohydrate diet (HCD) or on an HFD (60% fat). Food intake, body weight, indirect calorimetry parameters, spontaneous locomotor activity and several hormones relevant to metabolism and energy balance were measured. Results: On HFD, mice reduced food intake and increased body fat mass and plasma leptin levels, with the notable exception of the selected females, which increased their ingested calories without any effects on body mass or plasma leptin levels. In addition, they had an elevated daily energy expenditure (DEE), increased spontaneous cage activity (~700% relative to controls) and higher resting metabolic rate (RMR) on the HFD compared with feeding the HCD. The selected males also had a higher DEE compared with controls, but no interaction with diet was observed. On HCD, adiponectin levels were higher in selected male, but not female, mice relative to controls. A marked increase in the level of plasma adiponectin was observed on the HFD in selected females, an effect of diet that was not observed in selected males. Conclusion: Genetically based high locomotor activity renders female, but not male, mice resistant to HFD-induced obesity by alterations in behavioral, endocrine and metabolic traits that facilitate fat utilization rather than limiting HFD intake.
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