Leptin enhances the synthesis of oleayl-estrone from estrone in white adipose tissue

Background:Oleoylestrone elicits powerful slimming effects on lean and obes e pars, sparing protein, lowering appetite and maintaining energy expenditu re. Leptin synthesis is markedly reduced by oleoyl-estrone. However, this e ffect is not observed in the obese Zucker fa/fa rats; these rats do not ful ly respond to leptin but they lose fat under oleoyl-estrone treatment. To d etermine the role of leptin in the conversion of estrone to fatty-acyl estr one in white adipose tissue both in vivo in Zucker lean and obese rats, and in vitro. Methods: Two series of experiments were performed: a) Growth and differenti ation of 3T3L1 preadipocytes into adipocytes followed by incubation with tr itium-labeled estrone in the medium in the presence / absence of 1 nM lepti n, and estimation of the incorporation of label into estrone and estrone es ter fractions of cell extracts. b) Zucker lean (Fa/?) [ZL] and obese (fa/fa ) [ZO] rats were injected i.v. with carrier-free oleoyl-estrone in chylomic ra-sized liposomes, then euthanized after 10 min. Free and esterified estro ne were measured in blood, liver, muscle, skin, white adipose tissue (WAT), and brown adipose tissue (BAT). Results: In the first study, in a 72-h incubation, adipocytes took up 20-27 % of the medium estrone. In the leptin(-) controls, 47 % of the label in t he cell fraction was in the form of estrone esters and 45 % as free estrone ; in the leptin(+) cells, 71 % of the label was in the estrone ester fracti on and 24 % was free estrone. In the second study, a large part of the inje cted tritium-label remained in the ZO blood, with only a small part remaini ng in ZL. In ZL 39 % of the label was found in the tissues in the form of f ree estrone, and in ZO only 22 %; in both cases about half of it was in WAT . Plasma free estrone levels were 0.3+/-0.1 nM in ZL and 0.5+/-0.3 nM in ZO , and esterified estrone was 242+/-99 nM for ZL and 201+/-29 nM for ZO. Pla sma leptin levels were 1.73+/-0.16 ng/ml in ZL and 61.0+/-1.4 ng/ml in ZO. Conclusion: The presence of an intact leptin pathway is critical for the up take and synthesis of estrone esters as well as for the plasma acyl-estrone turnover. The presented results show a direct relationship between oleoyl- estrone and leptin in the WAT. A fully functional leptin pathway is needed for the synthesis of acyl-estrone and the removal of free estrone from the bloodstream, as well as for the disposal of excess circulating oleoyl-estro ne. This has a direct bearing on human and animal obesity, since estrone in duces increases in fat deposition.