| Abstract: |
Cytokines, in particular tumor necrosis factor-alpha (TNF-α), have significant effects on energy metabolism and appetite although their mechanisms of action are largely unknown. Here, we examined whether TNF-α modulates the production of leptin, the recently identified fat-specific energy balance hormone, in cultured adipocytes and in mice. TNF-α treatment of 3T3-L1 adipocytes resulted in rapid stimulation of leptin accumulation in the media, with a maximum effect at 6 h. This stimulation was insensitive to cycloheximide, a protein synthesis inhibitor, but was completely inhibited by the secretion inhibitor brefeldin A, indicating a posttranslational effect. Treatment of mice with TNF-α also caused a similar increase in plasma leptin levels. Finally, in obese TNF-α-deficient mice, circulating leptin levels were significantly lower, whereas adipose tissue leptin was higher compared with obese wild-type animals. These data provide evidence that TNF-α can act directly on adipocytes to regulate the release of a preformed pool of leptin. Furthermore, they suggest that the elevated adipose tissue expression of TNF- α that occurs in obesity may contribute to obesity-related hyperleptinemia. |
| Keywords: |
controlled study; nonhuman; proteins; leptin; protein blood level; animal cell; mouse; animals; mice; mice, knockout; animal tissue; cells, cultured; cell line; animal experiment; animal model; obesity; mice, inbred c57bl; cytokines; tumor necrosis factor alpha; tumor necrosis factor-alpha; rna, messenger; recombinant proteins; protein secretion; protein biosynthesis; elisa; cell strain 3t3; adipose tissue; secretion; hormones; mrna; energy balance; adipocyte; adipocytes; cycloheximide; protein synthesis inhibitor; male; priority journal; article; brefeldin a; mice, obese
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