OBJECTIVE: To find out whether leptin can attenuate hypometabolic torpor-like states of metabolic rate (MR) in adult lean animals, as it attenuates the morning suppression of thermoregulatory thermogenesis in suckling-age rat pups. DESIGN: Leptin effects on MR and food intake were studied in mice aged 4-7 months, in which a high incidence of exaggerated circadian reductions of MR had been induced by chronic food-restriction and, for comparison, in free-feeding mice. PROTOCOL: Continuous recordings of MR, for a group of seven mice maintained at an ambient temperature of 24 degrees C, while they were repeatedly-with pauses of at least six days-treated for three consecutive days with either recombinant murine leptin (20, 200 or 600 pmol x g(-1) x d[-1]) or saline. RESULTS: Leptin treatment caused dose-dependent 5-15% increases in energy expenditure by moderating the decreases in MR during the circadian minima, without affecting either the MR during the circadian maxima or food intake. Similar treatment of free-feeding mice caused dose-dependent decreases of food intake without changing MR. CONCLUSION: Leptin controls thermoregulatory energy expenditure when food supplies are scarce and changes food intake, rather than energy expenditure, when food is abundant.
OBJECTIVE: To find out whether leptin can attenuate hypometabolic torpor-like states of metabolic rate (MR) in adult lean animals, as it attenuates the morning suppression of thermoregulatory thermogenesis in suckling-age rat pups. DESIGN:Leptin effects on MR and food intake were studied in mice aged 4-7 months, in which a high incidence of exaggerated circadian reductions of MR had been induced by chronic food-restriction and, for comparison, in free-feeding mice. PROTOCOL: Continuous recordings of MR, for a group of seven mice maintained at an ambient temperature of 24 degrees C, while they were repeatedly-with pauses of at least six days-treated for three consecutive days with either recombinant murineleptin (20, 200 or 600 pmol x g(-1) x d[-1]) or saline. RESULTS:Leptin treatment caused dose-dependent 5-15% increases in energy expenditure by moderating the decreases in MR during the circadian minima, without affecting either the MR during the circadian maxima or food intake. Similar treatment of free-feeding mice caused dose-dependent decreases of food intake without changing MR. CONCLUSION:Leptin controls thermoregulatory energy expenditure when food supplies are scarce and changes food intake, rather than energy expenditure, when food is abundant.
Authors: Gregory J Morton; Karl J Kaiyala; Jonathan D Fisher; Kayoko Ogimoto; Michael W Schwartz; Brent E Wisse Journal: Am J Physiol Endocrinol Metab Date: 2010-11-09 Impact factor: 4.310
Authors: Steven J Swoap; Margaret J Gutilla; L Cameron Liles; Ross O Smith; David Weinshenker Journal: J Neurosci Date: 2006-01-04 Impact factor: 6.167
Authors: Anne M Pruznak; Ly Hong-Brown; Rachel Lantry; Pengxiang She; Robert A Frost; Thomas C Vary; Charles H Lang Journal: Am J Physiol Endocrinol Metab Date: 2008-08-19 Impact factor: 4.310
Authors: Amandeep Singh; Martin Wirtz; Nadeene Parker; Matthew Hogan; John Strahler; George Michailidis; Sarah Schmidt; Antonio Vidal-Puig; Sabrina Diano; Philip Andrews; Martin D Brand; Jeffrey Friedman Journal: Proc Natl Acad Sci U S A Date: 2009-07-21 Impact factor: 11.205