YAKHAK HOEJI (약학회지)

The Pharmaceutical Society of Korea (대한약학회)
권호 표지

The Effects of DHEA on the Antiobesity and Obese Gene Expression in Lean and Genetically Obese(ob/ob) Mice

DHEA의 항비만 효능 및 ob 유전자(leptin)의 발현에 미치는 영향

  • 정기경 (식품의약품안전청 국립독성연구소 약리부) ;
  • 신미희 (식품의약품안전청 국립독성연구소 약리부) ;
  • 한형미 (식품의약품안전청 국립독성연구소 약리부) ;
  • 강석연 (식품의약품안전청 국립독성연구소 약리부) ;
  • 김태균 (식품의약품안전청 국립독성연구소 약리부) ;
  • 강주혜 (식품의약품안전청 국립독성연구소 약리부) ;
  • 문애리 (덕성여자대학교 약학대학) ;
  • 김승희 (식품의약품안전청 국립독성연구소 약리부)
  • Published : 2000.10.01
Download PDF
⟨ Previous Next ⟩

Abstract

Leptin, the product of the ob gene, is a small peptide molecule synthesized by white adipocytes with an important role in the regulation of body fat and food intake. Based on the evidence that synthesis of leptin is regulated by female sex hormone, estrogen, this present study was investigated whether sex hormone precursor DHEA, can regulate obese gene expression in lean and genetically obese (ob/ob) mice. Antiobesity activity of DHEA was evaluated by determining body weight, food consumption, epididymal fat weight and serum levels of cholesterol and triglyceride in ICR, C57BL/6J, and ob/ob mice. The treatment of C57BL/6J lean and obese mice with a diet containing 0.3% and 0.6% DHEA resulted in lowered rates of weight gain in comparison to non-treated mice, although much greater response was found in the obese mice. All other concentrations of DHEA (0.015%, 0.06%, 0.15%, 0.3%) except the highest one(0.6%) showed no significant effects on weight gain in ICR mice. Food consumption was significantly decreased in all mice treated with 0.6% DHEA, whereas it was not decreased in ICR mice at lower concentrations than 0.6% DHEA. DHEA decreased significantly epididymal adipose tissue weight and serum triglyceride levels dose dependently in lean and obese mice. However serum cholesterol levels were decreased at lower concentrations than 0.15% DHEA and increased at concentrations of 0.3% and 0.6% DHEA in lean and obese mice. These increases in serum cholestrol levels at high concentrations of DHEA might result from the fact that DHEA has a cholesterol moiety thereby interfered the assay system. As an approach to elucidate the mechanism for antiobesity activity of DHEA, we examined mRNA levels of obese gene in the adipocyte and obese gene product (leptin) in the serum. The results showed that DHEA did not affect obese gene expression in ICR and C57BL/6J mice. Therefore, we concluded that antiobesity activity of DHEA was not modulated by obese gene expression.

Keywords

References

  1. Cell v.69 Trackling a weighty problem Friedman. J. M;Leibel R. L
  2. J. Hered v.41 Obese, a new mutuation in the mouse. Ingalls. A. M;Diclie. M. M;Snell. G.D
  3. Science v.153 Diabetes, a new mutuation in the mouse. Hummel. K. P;Dickie. M. M;Coleman. D. L
  4. Diabetologia v.9 Effects of parabiosis of obese and diabetes and normal mice. Coleman. D. L
  5. Nature v.372 Positional cloning of the mouse obese gene and its human homologue. Zhang. Y;Proenca. R;Maffei. M;Barone. M;Leopold. L;Friedman. J. M
  6. Science v.269 Recombinant mouse OB protein : evidence for a peripheral signal linking a adiposity and central neural networks Campfield. A. L;Smith. F. J;Guisea. Y;Devos. R;Burn. P
  7. Science v.269 Weight reducing effects of the plasma protein encoded by the obese gene. Halaas. J. L;Gajiwala. K. S;Maffei. M;Cohen. S. L;Chait. B. T;Rabinowitz. D;Lallone. R. L;Burley. S. K;Freidman. J. M
  8. Science v.269 Effects of the obese gene product on body weight regulation in ob/ob mice. Pelleymounter. M. A;Cullen. M. J;Baker. M. B;Hecht. R;Winters. D;Boone. T;Collins. E
  9. Nature v.377 The role of neuropeptide Y in the anti-obesity action of the obese gene product. Stephens. T. W;Bashinski. M;Bristow. P.K;Bue-Valleskey J. M;Burgett. S. G;Craft. L;Hale. J;Hoffmann. J;Hsiung. H. M;Kriausiunas. A;Mackellar. W;Rosteck. P.R;Schoner. B;Smith. D;Tinsley. F. C;Zhang. X.Y;Helman. M
  10. Science v.275 Obesity sheds its secrets. Gura. T
  11. Nature-Med. v.1 Increased obese mRNA expression in omental fat cells from massively obese human. Hamilton. B. S;Paglia. D;Kwan. A. Y. M;Deitel. M
  12. J. Biol. Chem. v.270 Induction of ob gene expression by corticosteroids is accompanied by body weight loss and reduced food intake De Vos;P. Saladin R;Auwerx. J;Staels B
  13. Biochem. Biophys. Res. Commun. v.214 Dexame-thasone regulates obese expression in isolated rat adipocytes. Murakami. T;Iida. M;Shima. K
  14. Nature v.377 Transient increase in obesi gene expression after food intake of insulin administration. Saladin. R;Vos. P;Guerre-Millo. M;Leturque. A;Girard. J;Staeis. B;Auwerx J
  15. Am. J. Clin. Nutr. v.34 The contribution of increased thermogenesis to the effect of anorectic drugs on body composition in mice Jonathan. R. S;Arch. M. A;Phil. D
  16. Am. J. Physiol. v.255 Effect of short-term DHEA administration on liver metabolism of lean and obese rats. Mohan. P.F;Cleary. M.P
  17. J. Exp. Zool v.242 Effects of dehydroepiandrosterone on obesity and glucose-6-phosphate dehydrogenase activity in the lethal yellow mouse(strain 129/Sv-Ay/Aw). Granholm. N. H;Staber. L. D;Wilkin. P. J
  18. Lipids v.12 Prevention of obesity in Avy/a mice by dehydroepiandrosterone. Yen. T. T;Allan. J.A;Pearson. D.V;Acton. J. M;Greenberg. M. M
  19. Nutr. Cancer v.3 Dehydroepiandro-sterone: an anti-obesity and anti-carcinogenic agent. Schwartz. A. G;Hard. G. C;Pashko. L. L;Abou-Gharbia. M;Swern. D
  20. Diabetes v.33 Effect of genetic background on the therapeutic effects of dehydroepiandrosterone (DHEA) in diabe-tes-obesity mutants and in aged normal mice Coleman. D. L;Schwizer. R. W;Leiter. E.H
  21. J. Nutr. v.120 Effects of dehydroepiandrosterone treatment in rats with diet induced obesity. Mohan. P.F;Ihnen. J. S;Levin. B.E;Cleary. M.P
  22. J. Endocrinol. v.160 Dihydrotestosterone, stanozolol, androstendione and dehydroepiandrosterone sulphate inhibit leptin secretion in female but not in male samples of omental adipose tissue in vitro: lack of effect of testosterone. Pineiro. V;Casabiell. X;Peino. R;Lage. M;Camina. J.P;Menendez. C;Balter. J;Dieguez. C;Casanueva. F