Thursday, October 18, 2018 Print page
Centre of Inflammation and Metabolism (CIM)


To read the abstract, please click on the title of the publication of interest. If you want to access the publication on PubMed, please click on the PubMed ID.
To find specific publications, please use the sort and search functions. Please enter one word only as search term.

Click here to see all publications

76The role of leptin in human lipid and glucose metabolism: the effects of acute recombinant human leptin infusion in young healthy males.
Wolsk E; Mygind H; Grondahl TS; Pedersen BK; van Hall G
Am J Clin Nutr 2011; 94(6): 1533-44
PubMed ID: 22071709

BACKGROUND: Obese and lean humans treated with leptin have not experienced convincing weight-loss results compared with the dramatic weight losses observed in obese rodents. OBJECTIVE: We sought to investigate the effect of acutely elevating leptin to concentrations observed in obese individuals on muscle and adipose tissue metabolism and muscle signaling in healthy lean males. DESIGN: Healthy, lean, postabsorptive males were infused with either recombinant human leptin (rhleptin; n = 8) or saline (control; n = 8) for 4 h, which elicited leptin concentrations of ~ 20 and ~ 1 ng/mL, respectively. Systemic, skeletal muscle, and adipose tissue fat and glucose metabolism in vivo were assessed before, during, and 2 h after cessation of the infusion. Skeletal muscle biopsy specimens were obtained to quantify changes in signal transducers and activators of transcription-5'AMP-activated protein kinase (STAT-AMPK) signaling. RESULTS: During the infusion of rhleptin, no differences in either systemic, skeletal muscle, or adipose tissue glucose or fat metabolism were observed. These observations were made despite increased activation of STAT (~ 17-fold) and AMPK (1.43-fold) after 1 h of rhleptin infusion. After the rhleptin infusion, an increase in systemic palmitate and fat oxidation was observed (P < 0.0003), which likely was caused by a concomitant increase in skeletal muscle palmitate oxidation (P < 0.02). This was observed despite lowered leptin concentrations and basal skeletal muscle STAT-AMPK signaling. CONCLUSIONS: Elevating circulating leptin concentrations to concentrations comparable with those of obese individuals increases human in vivo skeletal muscle signaling through the AMPK pathway and causes an increase in skeletal muscle fatty acid oxidation. Abdominal adipose tissue was unaffected by the acute physiologic increase in leptin concentrations.

© 2018 Centre of Inflammation and Metabolism