MSG lesions decrease body mass of suckling-age rats by attenuating circadian decreases of energy expenditure

doi:10.1152/ajpendo.00439.2001

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Am J Physiol Endocrinol Metab 283: E604-E611, 2002. First published April 23, 2002; doi:10.1152/ajpendo.00439.2001
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Vol. 283, Issue 3, E604-E611, September 2002

MSG lesions decrease body mass of suckling-age rats by attenuating circadian decreases of energy expenditure

Corinna Schoelch, Thomas Hübschle, Ingrid Schmidt, and Barbara Nuesslein-Hildesheim

Max-Planck-Institut für Physiologische und Klinische Forschung, W. G. Kerckhoff-Institut, D-61231 Bad Nauheim, Germany

Suckling-age rats display endogenous circadian rhythmicity of metabolic rate (MR) with energy-saving, torpor-like decreases,which are sympathetically controlled and suppressed by leptintreatment. We investigated whether neonatal monosodium glutamate(MSG) treatment, known to cause arcuate nucleus damage and adult-ageobesity, alters energy balance in the first two postnatal weeks.Continuously recorded MR and core temperatures (T_c) show thatMSG treatment disinhibits the periodic, sympathetically controlled,energy-saving drops of T_c and MR. Increased energy expenditurethus explains reduced body fat at normal lean body mass foundin MSG-treated pups artificially nourished identically to controls.In MSG-treated mother-reared pups, lean body mass is additionallyreduced, suggesting that MSG also reduces suckling. Plasma leptinlevels are similar in controls and MSG-treated pups but higherper unit of fat mass in the latter. We conclude that the postweaningdevelopment of MSG obesity and depressed thermogenesis are precededby an early phase of increased energy expenditure with decreasedfat deposition during suckling age and hypothesize cell damagein the arcuate nucleus to be involved inboth.

monosodium glutamate; juvenile rat; arcuate nucleus; obesity; leptin; torpor

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