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Departments of Internal Medicine and Pediatrics, Divisions of Adult and Pediatric Endocrinology and Adult Cardiovascular Disease, University of Iowa and the Iowa City Veterans Affairs Medical Center, Iowa City, Iowa 52246
To further investigate neural effects on leptin
and uncoupling proteins (UCPs), we studied in vivo perturbations
intended to block adrenergic input to peripheral tissues. We examined
plasma leptin, leptin mRNA, and adipose and muscle UCP subtype mRNA in rats treated with
-methyl-p-tyrosine methyl ester
(AMPT-ME), which inhibits catecholamine synthesis and 6-hydroxydopamine
(6HDA), which is toxic to catecholinergic nerve terminals but, unlike AMPT-ME, does not enter the central nervous system. Intraperitoneal AMPT-ME, 250 mg/kg, was administered at 1800 and 0700 the following day, and rats were killed at 1200-1400. All rats were
fasted with free access to water during this time. Intraperitoneal
AMPT-ME increased plasma leptin by 15-fold, increased interscapular
brown adipose tissue (IBAT) and epididymal fat leptin mRNA by 2- to 2.5-fold, and also increased plasma insulin and glucose concentrations. Intraperitoneal AMPT-ME decreased IBAT UCP-3 mRNA to 40% of control, while it increased epididymal adipose UCP-3 mRNA approximately twofold.
Intravenous AMPT-ME, 250 mg/kg, administered to conscious rats for 5 h
decreased lumbar sympathetic nerve activity, increased plasma leptin
(5.89 ± 1.43 compared with 2.75 ± 0.31 ng/ml in vehicle-treated
rats, n = 7, P < 0.05), and decreased cardiac rate with no sustained change in blood pressure. Intraperitoneal 6HDA,
100 mg/kg, as a single dose at 1800, increased plasma leptin approximately twofold after 18-20 h, increased IBAT (but not
epididymal fat) leptin mRNA by two- to threefold, and decreased IBAT
UCP-3 mRNA to 30-40% of control. Neither AMPT-ME nor 6HDA
significantly altered mRNA encoding gastrocnemius muscle UCP-3, IBAT
UCP-1, or IBAT and epididymal UCP-2. In summary, AMPT-ME and 6HDA
increased plasma leptin and upregulated leptin mRNA expression. AMPT-ME also resulted in complex tissue and subtype-specific modulation of
adipose UCP mRNA. These data are consistent with interaction between
leptin and sympathetic nerve activity (SNA) in regulation of fat cell
energy utilization. However, the in vivo modulation of leptin and UCPs
appears complex and, beyond a causal effect of SNA per se, may depend
on concurrent changes in plasma insulin, glucose, and circulatory hemodynamics.
sympathetic activity; insulin sensitivity
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