在人類腎上腺皮質細胞株NCI-H295中瘦體素干擾ACTH/cAMP對類固醇生成作用的訊息調控

Hao-Ting Hsu; 許皓婷

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24405

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	郭應誠(Ing-Cherng Guo)
dc.contributor.author	Hao-Ting Hsu	en
dc.contributor.author	許皓婷	zh_TW
dc.date.accessioned	2021-06-08T05:24:47Z	-
dc.date.copyright	2005-08-01
dc.date.issued	2005
dc.date.submitted	2005-07-23
dc.identifier.citation	1. Thomson M 1998 Molecular and cellular mechanisms used in the acute phase of stimulated steroidogenesis. Horm Metab Res 30:16-28 2. Stocco D 2001 StAR protein and the regulation of steroid hormone biosynthesis. Annu Rev Physiol 63:193-213 3. Walsh D, Perkins J, Krebs E 1968 An adenosine 3',　5'-monophosphate-dependant protein kinase from rabbit skeletal muscle. J Biol Chem 243:3763-3765 4. Bourn H, Landis C, Masters S 1989 Hydrolysis of GTP by the a-chain of Gs and other GTP binding proteins. Proteins 6:222-230 5. Hepler J, Gilman A 1992 G proteins. Trends Biochem Sci 17:383-387 6. Birnbaumer L 1992 Receptor-to-effector signaling through G proteins: role for bg dimmers as well as a subunits. Cell 71:1069-1072 7. Carr B, MacDonald P, Simpson E 1980 The regulation of de novo synthesis of cholesterol in the human fetal adrenal gland by low density lipoprotein and adrenocorticotropin. Endocrinol 107:1000-1006 8. Marcus G, Ainsworth L, Lucis R 1979 Cholesterol biosynthesis and progesterone production by chorionic cells of the early sheep conceptus in vitro. Steroids 34:295-303 9. Papadopoulos V, Amri H, Boujrad N, Cascio C, Culty M, Garnier M, Hardwick M, Li H, Vidic B, Brown A, Reversa J, Bernassau J, Drieu K 1997 Peripheral benzodiazepine receptor in cholesterol transport and steroidogenesis. Steroids 62:21-28 10. Stocco D, Chaudhary L 1990 Evidence for the functional coupling of cyclic AMP in MA-10 mouse Leydig tumor cells. Cell Signal 2:161-170 11. Stocco D, Chen W 1991 Presence of identical mitochondrial proteins in unstimulated constitutive steroid-producing R2C rat Leydig tumor and stimulated nonconstitutive steroid-producing MA-10 mouse Leydig cells. Endocrinol 128:1918-1926 12. Boujrad N, Hudson J, Papadopoulos V 1993 Inhibition of hormone-stimulated steroidogenesis in cultured Leydig tumor cells by a cholesterol-linked phosphorothioate oligodeoxynucleotide antisense to diazepam-binding inhibitor. Proc Natl Acad Sci U S A 90:5728-5731 13. Churchill P, Kimura T 1979 Topological studies of cytochromes P450scc and P45011b in bovine adrenocortical inner mitochondrial membranes. J Biol Chem 254:10443-10448 14. Zhange Y, Proenca R, Maffei M, Barone M, Leopold L, Friedman J 1994 Positional cloning of the mouse obse gene and its human homologue. Nature 372:425-432 15. Malendowicz LK, Neri G, Markowska A, Hochol A, Nussdorfer GG, Majchrzak M 2003 Effects of leptin and leptin fragments on steroid secretion of freshly dispersed rat adrenocortical cells. J Steroid Biochem Mol Biol 87:265-268 16. Lee G-H, Proenca R, Montez JM, Carroll KM, Darvishzadeh JG, Lee JI, Friedman JM 1996 Abnormal splicing of the leptin receptors in diabetic mice. Nature 379:632-635 17. Schwartx M, Seeley R, Campfield L, Burn P, Baskin D 1996 Identification of target of leptin action in rat hypothalamus. J Clin Invest 98:1101-1106 18. Wauters M, Considine R, Van Gaal L 2000 Human leptin: from an adipocyte hormone to an endocrine mediator. Eu J Endocrinol 143:293-311 19. Ahima R, Flier J 2000 Leptin. Annu Rev Physiol 62:413-437 20. Tartaglia L, Dembski M, Weng X, Deng N, Culpepper J, Devos R 1995 Identification and expression cloning of a leptin receptor, OB-R. Cell 83:1263-1271 21. Madej T, Boguski M, Bryant S 1995 Threading analysis suggests that the obese gene product may be a helical cytokine. FEBS Lett 373:13-18 22. Heshka JT, Jones PJH 2001 A role for dietary fat in leptin receptor, OB-Rb, function. Life Sci 69:987-1003 23. Heim M 1996 The Jak-STAT pathway: specific signal transduction from the cell membrane to the nucleus. Eu J Clin Invest 26:1-12 24. Kishimoto T, Akira S, Narazaki M, Taga T 1995 Interleukin-6 family of cytokines and gp130. Blood 86:1243-1254 25. Bjorbaek C, Uotani S, Da Silva B, Flier J 1997 Divergent signaling capabilities of the long and short isoforms of the leptin receptor. J Biol Chem 272:32686-32695 26. Kloek C, Haq A, Dunn S, Lavery H, Banks A, Myers MGJ 2002 Regulation of Jak kinases by intracellular leptin receptor sequences. J Biol Chem 277:41547-41555 27. Devos R, Guisez Y, Van Der Heyden J, White D, Kalai M, Fountoulakis M, Plaetinck G 1997 Ligand-independent dimerization of the extracellular domain of the leptin receptor and determination of the stoichiometry of leptin binding. J Biol Chem 272:18304-18310 28. Hegyi K, Fulop K, Kovacs K, Toth S, Falus A 2004 Leptin-induced signal transduction pathways. Cell Biol Int 28:150-169 29. Chen H, Charlat O, Tartaglia L, Woolf E, Weng X, Ellis S, Lakey N, Culpepper J, Moore K, Breitbart R, Duyk G, Tepper R, Morgenstern J 1996 Evidence that the diabetes gene encodes the leptin receptor: identifi-cation of a mutation in the leptin receptor gene in db/db mice. Cell 84:491-495 30. Bates SH, Stearns WH, Dundon TA, Schubert M, Tso AWT, Wang Y, Banks AS, Lavery HJ, Haq AK, Maratos-Flier E, Neel BG, Schwartz MW, Myers MGJ 2003 STAT3 signaling is required for leptin regulation of energy balance but not reproduction. Nautre 421:856-859 31. Banks A, Davis S, Bates S, Myers MJ 2000 Activation of downstream signals by the long form of the leptin receptor. J Biol Chem 275:14563-14572 32. Eyckerman S, Waelput W, Verhee A, Broekaert D, Vandekerckhove J, Tavernier J 1999 Analysis of Tyr to Phe and fa/fa leptin receptor mutation in the PC12 cell line. Eu Cytokine Netw 10:549-546 33. Ghilardi N, Ziegler S, Wiestner A, Stoffel A, Heim M, Skoda R 1996 Defective STAT signaling by the leptin receptor in diabetic mice. Proc Natl Acad Sci U S A 93:6231-6235 34. Briscoe C, Hanif S, Arch J, Tadayyon M 2001 Leptin receptor long-form signallng in a human liver cell line. Cytokine 14:225-229 35. Bendinelli P, Maroni P, Pecori Giraldi F, Piccoletti R 2000 Leptin activates Stat3, Stat1 and AP-1 in mouse adipose tissue. Mol Cell Endocrinol 168:11-20 36. Endo TM, M, Yokouchi M, Suzuki R, Sakamoto H, Mitsui K 1997 A new protein containing an SH2 domain that inhibits JAK kinases. Nature 387:921-924 37. Starr R, Willson T, Viney E, Murray L, Rayner J, Jenkins B 2000 A family of cytokine-inducible inhibitors of signalling. Nature 387:917-921 38. Hansen J, Lindberg K, Hilton D, Nielsen J, Billestrup N 1999 Mechanism of inhibition of growth hormone receptor signaling by suppressor of cytokine signaling proteins. Mol Endocrinol 13:1832-1843 39. Bjorbaek C, El-Haschimi K, Frantz J, Flier J 1999 The role of SOCS-3 in leptin signaling and leptin resistance. J Biol Chem 274:30059-30065 40. Rahmouni K, Morgan DA, Morgan GM, Liu X, Sigmund CD, Mark AL, Haynes WG 2004 Hypothalamic PI3K and MAPK differentially mediate regional sympathetic activation to insulin. J Clin Invest 114:652-658 41. Zhao AZ, Bornfeldt KE, Beavo JA 1998 Leptin inhibits insulin secretion by activation of phosphodiesterase 3B. J Clin Invest 102:869-873 42. Wang M-Y, Koyama K, Shimabukoro M, Mangelsdorf D, Newgard C, Unger R 1998 Overexpression of leptin receptors in pancreatic islets of Zucker diabetic fatty rats restores GLUT-2, glucokinase, and gucose-stimulated insulin secretion. Proc Natl Acad Sci U S A 95:11921-11926 43. Carvalheira J, Ribeiro E, Folli F, Velloso L, Saad M 2003 Interaction between leptin and insulin signaling pathways differentially affects JAK-STAT and PI 3-kinase-mediated signaling in rat liver. Biol Chem 384:151-159 44. Duan C, Li M, Rui L 2004 SH2-B promotes insulin receptor substrate 1 (IRS1)- and IRS2-mediated activation of the phosphatidylinositol 3-kinase pathway in response to leptin. J Biol Chem 279:43684-43691 45. kido Y, Nakae J, Accili D 2001 The insulin receptor and its cellular targets. J Clin Endocrinol Metab 86:972-979 46. Szanto I, Kahn C 2000 Selective interaction between leptin and insulin signaling pathways in a hepatic cell line. Proc Natl Acad Sci U S A 97:2355-2360 47. Ahmad F, Cong L-N, Holst LS, Wang L-M, Landstrom TR, Pierce JH, Quon MJ, Degerman E, Manganiello VC 2000 Cyclic nucleotide phosphodiesterase 3B is a downstream target of protein kinase B and may be involved in regulation of effects of protein kinase B on thymidine incorporation in FDCP2 cells. J Immunol 164:4678-4688 48. O'Rourke L, Yaeman S, Shepherd P 2001 Insulin and leptin acutely regulate cholesterol ester metabolism in macrophages by novel signaling pathways. Diabetes 50:955-961 49. Zhao AZ, Shinohara M, Huang D, Shimizu M, Eldar-Finkelman H, Krebs E 2000 Leptin induces insulin-like signaling that antagonizes cAMP elevation by glucagon in hepatocytes. J Biol Chem 275 50. Zhao A, Huan J, Gupta S, Pal RS, A 2002 A phosphotidylinositol 3-kinase phosphodiesterase 3B-cyclic AMP pathway in hypothalamic actin of leptin on feeding. Nat Neurosci 5:727-728 51. Ishida-Takahashi R, Uotani S, Abe T, Degawa-Yamauchi D, Fukushima T, Fujita N, Sakamaki H, Yammasaki H, Yamaguchi Y, Eguchi K 2004 Rapid inhibition of leptin signaling by glucocorticoids in vitro and in vivo. J Biol Chem 279:19658-19664 52. Garrington T, Johnson GL 1999 Organization and regulation of mitogen-activated protein kinase signaling pathways. Curr Opin Cell Biol 11:211-218 53. Martinat N, Crepieux P, Reiter E, Guillou F 2005 Extracellular signal-regulated kinases (ERK) 1, 2 are required for luteinizing hormone (LH)-induced steroidogenesisin primary Leydig cells and control steroidogenic acute regulatory (StAR) expression. Reprod Nutr Dev 45:101-108 54. Bjorbaek C, Buchholz R, Davis S, Bates S, Pierroz D, Gu H 2001 Divergent roles of SHP-2 in ERK activation by leptin receptors. J Biol Chem 276:4747-4755 55. Stofega M, Herrington J, Billestrup N, Carter-Su C 2000 Mutation of the SHP-2 binding site in growth hormone (GH) receptor prolonges GH-Promoted tyrosyl phosphorylation of GH receptor, JAK2, and STAT5B. Mol Endocrinol 14:1338-1360 56. Blenis J 1993 Signal transduction via the MAP kinases: proceed at your own RSK. Proc Natl Acad Sci U S A 90:5889-5892 57. Gyles SL, Burns CJ, Whitehouse BJ, Sugden D, Marsh P, Persaud SJ, Jones PM 2001 ERKs regulate cyclic AMP-induced steroid synthesis through transcription of the steroidogenic acute regulatory (StAR) gene. J Biol Chem 276:34888-34895 58. Menu EK, R, Vna Valckenborgh E, Asosingh K, Bakkus M, Van Camp B, Vanderkerken K 2004 Specific roles for the PI3K and the MEK-ERK pathway in IGF-1-stimulated chemotaxis, VEGF secretion and proliferation of multiple myeloma cells: study in the 5T33MM. Br J Cancer 90:1076-1083 59. Heiman ML, Ahima RS, Craft LS, Schoner B, Stephens TW, Flier JS 1997 Leptin inhibition of the hypothalamic-pituitary-adrenal axis in response to stress. Endocrinol 138:3859-3863 60. Roguski K, Baranowska B, Chmielowska M, Borowiec M 2000 Leptin modulates the corticotropin-releasing hormone (CRH) action on progesterone release from cultured rat granulosa cells. Neuroendocrinol Lett 21:383-389 61. Korbonits M, Chitnis M, Gueorguiev M, Jordan S, Norman D, Kaltsas G, Burrin J, Grossman A 2001 Leptin in pituitary adenomas--a novel paracrine regulatory system. Pituitary 4:49-55 62. Chelikani P, Glimm D, Dong F, Kannelly J 2004 Tissue distribution of leptin and leptin receptor gene expression in Holstein cattle. Adv Dairy Technol 16:327 63. Glasow A, Haidan A, Hilbers U, Breidert M, Gillespie J, Scherbaum WA, Chrousos GP, Bornstein SR 1998 Expression of Ob receptor in normal human adrenals: differential regulation of adrenocortical and adrenomedullary function by leptin. J Clin Endocrinol Metab 83:4459-4466 64. Malendowicz LK, Nussdorfer GG, Markowska A 1997 Effects of recombinant murine leptin on steroid secretion of dispersed rat adrenocortical cells. J Steroid Biochem Mol Biol 63:123-125 65. Hoggard N, Mercer J, Rayner D, Moar K, Trayhurn P, Williams L 1997 Localization of leptin receptor mRNA splice variants in murine peripheral tissues by RT-PCR and in situ hybridization. Biochem Biophys Res Commun 232:383-387 66. Takekoshi K, Ishii K, Nanmoku T, Shibuya S, Kawakami Y, Isobe K, Nakai T 2001 Leptin stimulates catecholamine synthesis in a PKC-dependent manner in cultured porcine adrenal medullary chromaffin cells. Endocrinol 142:4861-4871 67. Chelikani PK, Glimm DR, Kennelly JJ 2003 Short communication: tissue distribution of leptin and leptin receptor mRNA in the bovine. J Dairy Sci 86:2369-2372 68. Bornstein SR, Uhlmann K, Haidan A, Ehrhart-Bornstein M, Scherbaum WA 1997 Evidence for a novel peripheral action of leptin as a metabolic signal to the adrenal gland. Diabetes 46:1235-1238 69. Tominaga T, Fukata J, Naito Y, Usui T, Murakami N, Fukushima M, Nakai Y, Hirai Y, Imura H 1991 Prostaglandin-dependent in vitro stimulation of adrenocortical steroidogenesis by interleukins. Endocrinol 128:526-531 70. Pralong FP, Roduit F, Waeber G, Castillo E, Mosimann F, Thorens B, Gaillard RC 1998 Leptin inhibits directly glucocorticoid secretion by normal human and rat adrenal gland. Endocrinol 139:4264-4268 71. Glasow A, Bornstein SR 2000 Leptin and the adrenal gland. Eur J Clin Invest 30:39-45 72. D.Brannian J, Zhao Y, McElroy M 1999 Leptin inhibits gonadotrophin-stimulated granulosa cell progesterone production by antagonizing insulin action. Hum Reprod 14:1445-1448 73. Sweeney G 2002 Leptin signaling. Cell Signal 14:655-663 74. Pal R, Sahu A 2003 Leptin signaling in the hypothalamus during chronic central leptin infusion. Endocrinol 144:3789-3798 75. Sahu A 2004 Leptin signaling in the hypothalamus: emphasis on energy homeostasis and leptin resistance. Front Neuroendocrinol 24:225-253 76. Vaisse C, Halaas J, Horvath C, Darnell J, Stoffel M, Friedman J 1996 Leptin activation of Stat3 in the hypothalamus of wild-type and ob/ob mice but not db/db mice. Nat Genet 14:95-97 77. Baumann H, Morella K, White D, Dembski M, Bailon P, Kim H, Lai C, Tartaglia L 1996 The full-lengh receptor has signaling capabilities of interleukin 6-type cytokine receptors. Proc Natl Acad Sci U S A 93:8374-8378 78. Ruiz-Cortes Z, Martel-Kennes Y, Gevry N, Downey B, Palin M, Murphy B 2003 Biphasic effects of leptin in porcine granulosa cells. Biol Reprod 68:789-796 79. Kruse M, Bornstein S, Uhlmann K, Paeth G, Scherbaum W 1998 Leptin down-regulates the steroid producing system in the adrenal. Endocr Res 24:587-590 80. Tena-Sempere M, Manna PR, Zhang F-P, Pinilla L, Gonzalez C, Dieguez C, Huhtaniemi I, Aguilar E 2001 Molecular mechanisms of leptin action in adult rat testis: potential targets for leptin-induced inhibition of steroidogenesis and pattern of leptin receptor mesenger ribonucleic acid expression. J Endocrinol 170:413-423 81. Guo IC, Hu MC, Chung BC 2003 Transcriptional regulation of CYP11A1. J Biomed Sci 10:593-598 82. Kim Y, Uotani S, Pierroz D, Flier J, Kahn B 2000 In vivo administration of leptin activates signal transduction directly in insulin-sensitive tissues: overlapping but distinct pathways from insulin. Endocrinol 141:2328-2339 83. Bruno A, Conus S, Schmid I, Simon H 2005 Apoptotic pathways are inhibited by leptin receptor activation in neutrophils. J Immunol 174:8090-8096 84. Sweeney G, Niu W, Kanani R, Klip A 2000 Regulation of the Na, K-pump by leptin in 3T3-L1 fibroblasts. Endocrinol 141:1277-1280 85. Solinas G, Summermatter S, Mainieri D, Gubler M, Pirola L, Wymann M, Rusconi S, Montani J, Seydoux J, Dulloo A 2004 The direct effect of leptin on skeletal muscle thermogenesis is mediated by substrate cycling between de novo lipogenesis and lipid oxidation. FEBS Lett 577:539-544 86. Sekar N, Veldhuis J 2001 Concerted transcriptional activation of the low density lipoprotein receptor gene by insulin and luteinizing hormone in cultured porcine granulosa-luteal cells: possible convergence of protein kinase A, phosphatidylinositol 3-kinase, and mitogen-activated protein kinase signaling pathways. Endocrinol 142:2921-2928 87. Martinat N, Crepieux P, Reiter E, Guillou F 2005 Extracellular signal-regulated kinases (ERK) 1, 2 are required for luteinizing hormone (LH)-induced steroidogenesis in primary Leydig cells and control steroidogenic acute regulatory (StAR) expression. Reprod Nutr Dev 45:101-108 88. Tajima K, Yoshii K, Fukuda S, Orisaka M, Miyamoto K, Amsterdam A, Kotsuji F 2005 LH-induced ERK Activation Differently Modulates Progesterone and Androstenedione Production in Bovine Theca Cells. Endocrinol [Epub ahead of print] 89. Ozbay T, Merrill AJ, Sewer M 2004 ACTH regulates steroidogenic gene expression and cortisol biosynthesis in the human adrenal cortex via sphingolipid metabolism. Endocr Res 30:787-794 90. Martinelle N, Holst M, Soder O, Svechnikov K 2004 Extracellular signal-regulated kinases are involved in the acute activation of steroidogenesis in immature rat Leydig cells by human chorionic gonadotropin. Endocrinol 145:4629-4634
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/24405	-
dc.description.abstract	動物體內主要分泌類固醇內泌素的腺體是性腺與腎上腺，前者分泌性類固醇，後者分泌醣皮素與鹽皮素，以維持許多生理功能的正常運作，如性類固醇調節性腺的分化與成熟，醣皮素調節醣類的代謝，鹽皮素則維持水分子及電解質的平衡等等。解剖學上，性腺與腎上腺被脂肪組織包埋著，普遍認為脂肪組織提供物理性的保護作用，然而近幾年研究發現脂肪組織所分泌的某些細胞激素，在性腺與腎上腺的生理功能上可能扮演著區域性的調節角色，其中瘦體素被證實參與性類固醇的分泌，包括對卵巢的粒性細胞、睪丸的來狄氏細胞等，瘦體素都能直接調節它們生成性類固醇。因此本研究探討瘦體素是否也參與腎上腺皮質細胞類固醇的生成，以及其可能的調控機制。首先，利用反轉錄聚合酶鏈反應檢測出人類腎上腺皮質NCI-H295細胞能表現瘦體素接受體OB-Rb及OB-Ra。利用酵素免疫分析法發現，瘦體素處理並不影響NCI-H295細胞基底類固醇的分泌，但能顯著減少激腎上腺皮質素(ACTH)或霍亂毒素所誘發的孕酮及可體松的分泌。以西方墨點法分析類固醇生成酶P450scc、3b-HSD以及P450c21的蛋白質表現，以及以反轉錄聚合酶鏈反應分析類固醇生成基因P450scc與3b-HSD的mRNA，發現瘦體素均能減弱霍亂毒素對他們的刺激性。進一步測試P450scc啟動子活性發現，瘦體素也能減低霍亂毒素的刺激性而且作用區域在-1.7kb至-1.5kb啟動子之間。利用JAK1/2抑制劑AG490、MEK1/2抑制劑PD98059及PI3 kinase抑制劑Wortmannin測試瘦體素作用的可能訊息傳遞途徑，發現AG490及Wortmannin能防止瘦體素降低霍亂毒素的刺激作用。推測瘦體素是否能影響磷酸雙酯酶 (phosphodiesterases, PDE)活性而調節cAMP的訊息，於是利用PDE的一般性抑制劑IBMX、PDE3抑制劑SKF94836以及PDE3B無法代謝的N6-MB-cAMP測試，發現PDE3B可能是瘦體素的作用關鍵。本論文展現瘦體素能干擾ACTH/cAMP調節腎上腺皮質細胞生成類固醇的訊息，作用層次包括孕酮與可體松的分泌、類固醇生成酶的表現、類固醇生成基因mRNA表現、以及P450scc啟動子的活性。實驗的結果顯示瘦體素可能經由JAK1/2-PI3 kinase的途徑活化PDE3B以遞解細胞內cAMP含量，因而減弱ACTH/cAMP對腎上腺皮質類固醇生成的刺激訊息。	zh_TW
dc.description.abstract	Leptin, mainly secreted from adipose tissues surrounding adrenal glands, is proposed to locally control the biosynthesis of adrenal steroid hormones. The human adrenocortical NCI-H295 cells were treated with or without leptin, adrenocorticotropic reagent, or both. Two major adrenal steroid products, progesterone and cortisol secreted in their cultured media were measured by ELISA. Cholera toxin, an activator of cAMP-protein kinase A pathway, mimicked ACTH effect to stimulate the secretion of progesterone and cortisol in time- and dose-dependent fashions. Leptin did not affect basal secretion of both steroid hormones; however, it effectively inhibited ACTH- or cholera toxin-induced secretion of progesterone and cortisol. Furthermore, the induction of cholera toxin on the protein amounts of P450scc, the first and rate-limiting steroidogenic enzyme, 3b-HSD, the essential enzyme for synthesis of bioactive steroids, and P450c21, the critical enzyme in secreting corticoids, were reduced by leptin. Similar inhibition of leptin was observed at the mRNA levels of P450scc and 3b-HSD. The involvement of leptin in regulating CYP11A1 promoter activity was evaluated by 5’-serial deletion. The deletion clones containing CYP11A1 promoter over 1.7 kb were responsive, whereas the shorter clone with 1.5-kb CYP11A1 promoter was silent to cAMP stimulation. The cAMP-inducible promoter activity was decreased by leptin. The inhibition of leptin on cAMP-regulated steroidogenesis and CYP11A1 promoter activity was prevented by the JAK1/2 specific inhibitor AG490 and PI3 kinase specific inhibitor Wortmannin as well as a general PDE inhibitor IBMX and a PDE3 selective inhibitor SKF94836; moreover, leptin failed to interfere the induction of N6-MB-cAMP, a PDE3B resistant cAMP analogue. Collectively, this study demonstrated leptin reduced adrenocorticotropic reagent-induced steroidogenesis possibly through a hypothesized JAK1/2-PI3 kinase-PDE3B-cAMP pathway.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T05:24:47Z (GMT). No. of bitstreams: 1 ntu-94-R92629008-1.pdf: 871926 bytes, checksum: 4e49b6604d24027778c5a25e35e6ad16 (MD5) Previous issue date: 2005	en
dc.description.tableofcontents	Abstract in Chinese 1 Abstract 3 Introduction 4 -Adrenal steroidogenesis 4 -Leptin 7 -Leptin receptors 8 -Leptin signaling 9 -Involvement of leptin in adrenal steroidogenesis 12 (1) Indirect effect of leptin: HPA axis 12 (2) Direct effect of leptin 12 Questions 14 Materials and Methods 15 -Cell culture and chemicals 15 -RNA extraction and cDNA synthesis 15 -Hormone assay 16 -Western blotting 16 -PCR 17 -Luciferase assay 17 -Statistical analysis 17 Results 18 -Expression of leptin receptors in NCI-H295 cells 18 -ACTH responsiveness of NCI-H295 cells 18 -Effect of leptin on basal and ACTH-regulated steroidogenesis 19 -Effect of leptin on cholera toxin-stimulated steroidogenesis 19 -Effect of leptin on protein expression of P450scc, 3b-HSD and P450c21 20 -Effect of leptin on mRNA expression of P450scc and 3b-HSD 21 -Effect of leptin on CYP11A1 promoter activity 21 -Effect of PI3 kinase inhibitor Wortmannin on leptin signaling 22 -Effect of JAK1/2 inhibitor AG490 on leptin signaling 22 -Effect of MEK1/2 inhibitor PD98059 on leptin signaling 22 -Role of PDE in leptin signaling 23 Discussions 25 References 30 Figures 41 Table 63
dc.language.iso	en
dc.title	在人類腎上腺皮質細胞株NCI-H295中瘦體素干擾ACTH/cAMP對類固醇生成作用的訊息調控	zh_TW
dc.title	Leptin interferes ACTH-cAMP signaling on steroid biosynthesis in human NCI-H295 adrenocortical tumor cell line	en
dc.type	Thesis
dc.date.schoolyear	93-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	詹東榮,朱有田,胡孟君,吳兩新
dc.subject.keyword	瘦體素,	zh_TW
dc.subject.keyword	leptin,	en
dc.relation.page	63
dc.rights.note	未授權
dc.date.accepted	2005-07-23
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	獸醫學研究所	zh_TW
顯示於系所單位：	獸醫學系

文件中的檔案：

檔案	大小	格式
ntu-94-1.pdf 目前未授權公開取用	851.49 kB	Adobe PDF

顯示文件簡單紀錄

系統中的文件，除了特別指名其著作權條款之外，均受到著作權保護，並且保留所有的權利。