Effects of chronic leptin infusion on subsequent body weight and composition in mice: Can body weight set point be reset?

Y Ravussin¹, C A LeDuc¹, K Watanabe¹, B R Mueller¹, A Skowronski¹, M Rosenbaum¹, R L Leibel¹

Affiliations

Affiliation

¹ Department of Pediatrics, Division of Molecular Genetics, Columbia University, College of Physicians and Surgeons, 630 West 168th Street, New York, NY 10032, USA.

PMID: 24944902
PMCID: PMC4060284
DOI: 10.1016/j.molmet.2014.02.003

Effects of chronic leptin infusion on subsequent body weight and composition in mice: Can body weight set point be reset?

Y Ravussin et al. Mol Metab. 2014.

. 2014 Mar 5;3(4):432-40.

doi: 10.1016/j.molmet.2014.02.003. eCollection 2014 Jul.

Authors

Y Ravussin¹, C A LeDuc¹, K Watanabe¹, B R Mueller¹, A Skowronski¹, M Rosenbaum¹, R L Leibel¹

Affiliation

¹ Department of Pediatrics, Division of Molecular Genetics, Columbia University, College of Physicians and Surgeons, 630 West 168th Street, New York, NY 10032, USA.

PMID: 24944902
PMCID: PMC4060284
DOI: 10.1016/j.molmet.2014.02.003

Abstract

Circulating leptin concentrations correlate with fat mass and signal the status of somatic energy stores to the brain. Previous studies suggest that diet-induced elevations of body weight increase body weight "set-point". To assess whether chronic hyperleptinemia is responsible for this shift in defended body weight, we elevated circulating leptin concentrations in lean mice to those comparable to diet-induced obese mice for eighteen weeks. We hypothesized that following cessation of leptin infusion, a higher body weight would be defended. Compared to saline-infused controls, leptin-infused mice had elevated circulating leptin concentrations, gained less weight, yet had similar metabolic rates. Following cessation of leptin administration, leptin-infused mice gained some weight yet plateaued at 5-10% below controls. These results suggest that, unlike mice rendered hyperleptinemic by diet-induced weight gain, leptin-infused mice do not subsequently "defend" a higher body weight, suggesting that hyperleptinemia per se does not mimic the CNS consequences of chronic weight gain.

Keywords: Body weight “set-point”; Leptin; Leptin resistance; Obesity.

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Figures

**Figure 1**
Experimental Timeline. Experimental timeline of all three phases of the study. Following a 3 week acclimatization period at Columbia University, mice were nine weeks old at the start of the experiment. Mini-pumps containing increasing quantities of leptin were surgically replaced every two weeks during an 18-week infusion period (Phase 1). Blood was obtained by retro-orbital bleed following a 4-h fast eight days after each mini-pump switch during the 18 weeks of Phase 1 as well as well as 5, 41, and 118 days following removal of the final pump (see black circles).

**Figure 2**
Body weight, body composition, and circulating leptin concentration during Leptin Infusion phase **(A–C)** Mean (±sem) body weight **(A)** fat mass **(B)** and fat-free mass **(C)** of leptin- (LEP mice; n = 32; black diamond) or PBS- (PBS mice; n = 12; open diamonds) infused mice. Black circles represent mini-pump replacement surgeries (doses of leptin are noted below each circle in μg/day). Black line on bottom right represents 72 h indirect calorimetry measures for all mice. **(D)** Mean (±sem) serum leptin concentrations (ng/ml) at increasing leptin infusion rates (μg/day) of LEP and PBS groups collected from four-hour fasting serum obtained 7 days following mini-pump replacement surgery. * p < 0.05.

**Figure 3**
Energy expenditure, ambulatory activity, and respiratory during Leptin Infusion phase. Mean (±sem) non-adjusted (for body weight or composition) total energy expenditure **(A)**, total activity **(B)**, and respiratory quotient **(C)** of leptin- (LEP mice; n = 32; black diamond) or PBS- (PBS mice; n = 12; open diamond) infused mice. Gray shading represents lights off period. Mice spent 72 h in calorimeter; data was collected during the last 48 h for all three figures.

**Figure 4**
Body weight, food intake, and metabolic efficiency during Weight Regain phase. Mean (±sem) body weight **(A)** percent body weight change **(B)** 24-h food intake of low fat (10% kcal from fat) control diet **(C)** and 24-h feed efficiency (calculated by dividing 24-h weight change (g) by 24-h food intake (g)) **(D)** of leptin- (LEP mice; n = 32; black diamond) or PBS- (PBS mice; n = 12; open diamond) infused mice 30 days following removal of the terminal mini-pump.

**Figure 5**
Food intake during Diet Preference phase. Mean (±sem) kcal/24 h consumed of either low fat diet (LFD: 10% kcal from fat: dashed lines) or medium fat diet (MFD: 30% kcal from fat: solid lines) for either leptin- (LEP mice; n = 32; black diamond) or PBS- (PBS mice; n = 12; open diamond) infused mice.

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Effects of chronic leptin infusion on subsequent body weight and composition in mice: Can body weight set point be reset?

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Effects of chronic leptin infusion on subsequent body weight and composition in mice: Can body weight set point be reset?

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