Leptin responsiveness restored by amylin agonism in diet-induced obesity: Evidence from nonclinical and clinical studies

Body weight is regulated by complex neurohormonal interactions between endocrine signals of long-term adiposity (e.g., leptin, a hypothalamic signal) and short-term satiety (e.g., amylin, a hindbrain signal). We report that concurrent peripheral administration of amylin and leptin elicits synergisti...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2008-05, Vol.105 (20), p.7257-7262
Main Authors: Roth, Jonathan D, Roland, Barbara L, Cole, Rebecca L, Trevaskis, James L, Weyer, Christian, Koda, Joy E, Anderson, Christen M, Parkes, David G, Baron, Alain D
Format: Article
Language:English
Subjects:
Adipose Tissue - metabolism
amylin
Amyloid - agonists
Amyloid - chemistry
Amyloid - metabolism
Amyloid - pharmacology
Animals
Automobiles
Biological Sciences
Body Weight
Caloric Restriction
Cells
Disease Models, Animal
Food intake
high fat diet
hormonal regulation
hormones
Hormones - metabolism
Hypothalamus - metabolism
Islet Amyloid Polypeptide
leptin
Leptin - analogs & derivatives
Leptin - metabolism
Leptin - pharmacology
Models, Biological
Neurons
Obesity
Obesity - genetics
Obesity - therapy
Oxygen Consumption
pancreas
polypeptides
pramlintide
Pretreatment
Rats
Receptors
Rodents
Signal transduction
Studies
Vehicles
Weight control
Weight loss
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Summary:Body weight is regulated by complex neurohormonal interactions between endocrine signals of long-term adiposity (e.g., leptin, a hypothalamic signal) and short-term satiety (e.g., amylin, a hindbrain signal). We report that concurrent peripheral administration of amylin and leptin elicits synergistic, fat-specific weight loss in leptin-resistant, diet-induced obese rats. Weight loss synergy was specific to amylin treatment, compared with other anorexigenic peptides, and dissociable from amylin's effect on food intake. The addition of leptin after amylin pretreatment elicited further weight loss, compared with either monotherapy condition. In a 24-week randomized, double-blind, clinical proof-of-concept study in overweight/obese subjects, coadministration of recombinant human leptin and the amylin analog pramlintide elicited 12.7% mean weight loss, significantly more than was observed with either treatment alone (P < 0.01). In obese rats, amylin pretreatment partially restored hypothalamic leptin signaling (pSTAT3 immunoreactivity) within the ventromedial, but not the arcuate nucleus and up-regulated basal and leptin-stimulated signaling in the hindbrain area postrema. These findings provide both nonclinical and clinical evidence that amylin agonism restored leptin responsiveness in diet-induced obesity, suggesting that integrated neurohormonal approaches to obesity pharmacotherapy may facilitate greater weight loss by harnessing naturally occurring synergies.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0706473105