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個人資料 研究方向 代表著作 五年內執行計畫 實驗室成員 (2016.03.15 update)

姓名 黃娟娟
職稱 教授
通訊電話 02-2826-7087
傳真號碼 02-2826-4049




經歷 美國凱斯西儲大學博士後研究員(1990-1992)

(1) Ovarian Physiology

          using ovarian cell culture system to study hormonal regulation of steroidogenesis, gap junction function, matrix remodeling and angiogenesis, and cell metabolism.

(2) Pathology

          (a) cancer cell invasion/metastasis.

          (b) sex hormone imbalance in relation to metabolism in females.

代表著作 (*, correspondence)
1 Tsai C-H, Tzeng S-F, Chao T-K, Tsai C-Y, Yang Y-C, Lee M-T, Hwang J-J*, Chou J-C, Tsai M-H, Cha T-L, Hsiao P-W. Metastatic progression of prostate cancer is mediated by autonomous binding of galection-4-O-glycan to cancer cells. Cancer Res. 2016, 76:5756-5767.
2 Fang W-L, Lai S-Y, Lai W-A, Lee M-T, Liao C-F, Ke F-C, Hwang J-J*. CRTC2 and Nedd4 ligase involvement in FSH and TGFb1 upregulation of connexin43 gap junction. J Mol Endocrinol. 2015, 55:263–275.
3 Lai W-A, Yeh Y-T, Fang W-L, Wu L-S, Harada N, Wang P-H, Ke F-C, Lee W-L, Hwang J-J*. (2014) Calcineurin and CRTC2 mediate FSH and TGFβ1 upregulation of Cyp19a1 and Nr5a in ovary granulosa cell. J Mol Endocrinol 53:259-270.
4 Lai W-A, Yeh Y-T, Lee M-T, Wu L-S, Ke F-C*, Hwang J-J*. (2013) Ovarian granulosa cells utilize scavenger receptor SR-BI to evade cholesterol homeostatic control for steroid synthesis. J Lipid Res 54:365-378.
5 Fang W-L, Lee M-T, Wu L-S, Chen Y-J, Mason JI, Ke F-C*Hwang J-J*. (2012) CREB coactivator CRTC2/TORC2 and its regulator calcineurin crucially mediate follicle-stimulating hormone and transforming growth factor b1 upregulation of steroidogenesis. J Cell Physiol 227: 2430–2440.
6 Kuo S-W, Ke F-C, Chang G-D, Lee M-T, Hwang J-J*. (2011) Potential role of follicle-stimulating hormone (FSH) and transforming growth factor (TGFb1) in the regulation of ovarian angiogenesis. J Cell Physiol 226:1608-1619.
7 Lin C-Y, Tsai P-H, Kandaswami CC, Chang G-D, Cheng C-H, Huang C-J, Lee P-P, Hwang J-J*, Lee M-T*. (2011) Role of tissue transglutaminase 2 in the acquisition of a mesenchymal-like phenotype in highly invasive A431 tumor cells. Mol Cancer 10:87.
8 Lin Y-S, Tsai P-H, Kandaswami CC, Cheng C-H, Ke F-C, Lee P-P, Hwang J-J*, Lee M-T*. (2011) Effects of dietary flavonoids, luteolin, and quercetin on the reversal of epithelial-mesenchymal transition in A431 epidermal cancer cells. Cancer Sci 102: 1829–1839.
9 Lin C-Y, Tsai P-H, Kandaswami CC, Lee P-P, Huang C-J, Hwang J-J*, Lee M-T*. (2011) Matrix metalloproteinase-9 cooperates with transcription factor Snail to induce epithelial-mesenchymal transition. Cancer Sci 102:815-827.
10 Chen S-H, Lin C-Y, Lee L-T, Chang G-D, Lee P-P, Hung C-C, Kao W-T, Tsai P-H, Schally AV, Hwang J-J*, Lee M-T*. (2010) Upregulation of fibronectin and tissue transglutaminase promotes cell invasion involving increased association with integrin and MMP expression in A431 cells. Anticancer Res 30: 4177-4186.
11 Chen Y-J, Lee M-T, Yao H-C, Hsiao P-W, Ke F-C*, Hwang J-J*. (2008) Crucial role of estrogen receptor-a interaction with transcription coregulators in FSH and TGFb1 upregulation of steroidogenesis in rat ovarian granulosa cells. Endocrinology 149:4658-4668.
12 Kao W-T, Lin C-Y, Lee L-T, Lee P-P, Hung C-C, Lin Y-S, Chen S-H, Ke F-C, Hwang J-J*, Lee M-T*. (2008) Investigation of MMP-2 and MMP-9 in a highly invasive A431 tumor cell sub-line selected from a boyden chamber assay. Anticancer Res 28:2109-2120.
13 Lin S-W, Ke F-C, Hsiao P-W, Lee P-P, Lee M-T*, Hwang J-J*. (2007) Critical involvement of ILK in TGFβ1-stimulated invasion/migration of human ovarian cancer cells is associated with urokinase plasminogen activator system. Exp Cell Res 313:602-613.
14 Chen Y-J, Hsiao P-W, Lee M-T, Mason JI, Ke F-C*, Hwang J-J*. (2007) Interplay of PI3K and cAMP/PKA signaling, and rapamycin-hypersensitivity in TGFb1 enhancement of FSH-stimulated steroidogenesis in rat ovarian granulosa cells. J Endocrinol 192:405-419.
15 Ke F-C, fang S-H, Lee M-T, Sheu S-Y, Lai S-Y, Chen YJ, Huang F-L, Wang PS, Stocco DM, Hwang J-J*. (2005) Lindane, a gap junction blocker, suppresses FSH and transforming growth factor b1-induced connexin43 gap junction formation and steroidogenesis in rat granulosa cells. J Endocrinol 184:555-566.
16 Kanadaswami C, Lee L-T, Lee P-PH, Hwang J-J*, Ke F-C, Huang Y-T, Lee M-T. (2005) The antitumor activities of flavonoids. In Vivo 19:895-910. (review)
17 Ke F-C, Chuang L-C, Lee M-T, Chen Y-J, Lin S-W, Wang PS, Stocco DM, Hwang J-J*. (2004) The modulatory role of transforming growth factor b1 and androstenedione on follicle-stimulating hormone-induced gelatinase secretion and steroidogenesis in rat granulosa cells. Biol Reprod 70:1292-1298.
18 Lee L-T, Huang Y-T, Hwang J-J*, Lee AYL, Ke F-C, Huang CJ, Kanadaswami C, Lee HP-P, Lee M-T. (2004) Transactivation of EGFR tyrosine kinase by the dietary flavonoids decreases focal adhesion kinase phosphorylation and inhibits invasive potential of human carcinoma cells. Biochem Pharmacol 67:2103-2114.
19 Huang Y-T, Hwang J-J*, Lee L-T, Liebow C, Lee P-PH, Ke F-C, Lo T-B, Schally AV, Lee M-T. (2002) Inhibitory effects of a luteinizing hormone-releasing hormone agonist on basal and epidermal growth factor-induced cell proliferation and metastasis-associated properties in human epidermoid carcinoma A431 cells. Int J Cancer 99:505-513.
20 Lee L-T, Huang Y-T, Hwang J-J*, Lee P-P, Ke F-C, Nair MP, Kanadaswami C, Lee M-T. (2002) Blockade of the epidermal growth factor receptor tyrosine kinase activity by quercetin and luteolin leads to growth inhibition and apoptosis of pancreatic tumor cells. Anticancer Res 22:1615-1628.
21 Lin S-W, Lee M-T, Ke F-C, Lee H P-P, Huang C-J, Ip MM, Chen L, Hwang J-J*. (2001) TGFb1 stimulates the secretion of matrix metalloproteinase 2 (MMP2) and the invasive behavior in human ovarian cancer cells, which is suppressed by MMP inhibitor BB3103. Clin Exp Metastat 18:493-499.
22 Lee P-P, Hwang J-J*, Murphy G, Ip MM. (2001) The functional role of matrix metalloproteinases (MMPs) in mammary epithelial cell development. J Cell Physiol 188:75-88.
23 Teng C-H, Ke F-C, Lee M-T, Lin S-W, Chen L, Hwang J-J*. (2000) Pituitary adenylate cyclase activating polypeptide acts synergistically with relaxin in modulating ovarian cell function in rats. J Endocrinol 167:63-71.
24 Lee P-P, Hwang J-J*, Ip MM. (2000) Functional significance of MMP-9 in tumor necrosis factor-induced proliferation and branching morphogenesis of mammary epithelial cells. Endocrinology 141:3764-3773.
25 Huang Y-T, Hwang J-J*, Lee P-P, Ke F-C, Huang J-H, Huang C-J, Kandaswami C, Middleton Jr E, Lee M-T. (1999) Effects of luteolin and quercetin, inhibitors of tyrosine kinase, on cell growth and metastasis-associated properties in A431 cells overexpressing epidermal growth factor receptor. Br J Pharmacol 128:999-1010.
26 Tsai S-C, Lu C-C, Chen J-J, Chiao Y-C, Wang S-W, Hwang J-J*, Wang PS. (1999) Inhibition of salmon calcitonin on secretion of progesterone and GnRH-stimulated pituitary luteinizing hormone. Am J Physiol 277:E49-E55.
27 Wang S-W, Lin H, Hwang J-J*, Wang PS. (1999) Inhibition of testosterone secretion by digitoxin in rat testicular interstitial cells. J Cell Biochem 74:74-80.
28 Chiao Y-C, Lee H-Y, Wang S-W, Hwang J-J*, Chien C-H, Huang S-W, Lu C-C, Chen J-J, Tsai S-C, Wang PS. (1999) Regulation of thyroid hormones on the production of testosterone in rats. J Cell Biochem 73:554-562.
29 Hwang J-J*, Lin S-W, Teng C-H, Ke F-C, Lee M-T. (1996) Relaxin modulates the ovulatory process and increases secretion of different gelatinases from granulosa and theca-interstitial cells in rats. Biol Reprod 55:1276-1283.
30 Hwang J-J*, Macinga D, Rorke EA. (1996) Relaxin modulates human cervical stromal cell activity. J Clin Endocrinol Metab 81:3379-3384.
31 Lee AB, Hwang J-J*, Haab LM, Fields PA, Sherwood OD. (1992) Monoclonal antibodies specific for rat relaxin VI. Passive immunization with monoclonal antibodies throughout the second half of pregnancy disrupts histological changes associated with cervical softening at parturition in rats. Endocrinology 130:2386-2391.
32 Fields PA, Lee AB, Haab LM, Hwang J-J*, Sherwood OD. (1992) Evidence for a dual source of relaxin in the pregnant rat: Immunolocalization in the corpora lutea and endometrium. Endocrinology 130:2985-2990, 1992.
33 Hwang J-J*, Lee AB, Fields PA, Mojonnier LE and Sherwood OD. (1991) Monoclonal Antibodies Specific for Rat Relaxin. V. Passive immunization with monoclonal antibodies throughout the second half of pregnancy disrupts development of the mammary apparatus and, hence, lactational performance in rats. Endocrinology 129:3034-3042.
34 Hwang J-J*, Shanks RD, Sherwood OD. (1989) Monoclonal antibodies specific for rat relaxin. IV. Passive immunization with monoclonal antibodies during the antepartum period reduces cervical growth and extensibility, disrupts birth, and reduces pup survival in intact rats. Endocrinology 125:260-266.
35 Hwang J-J*, Sherwood OD. (1988) Monoclonal antibodies specific for rat relaxin. III. Passive immunization with monoclonal antibodies throughout the second half of pregnancy reduces cervical growth and extensibility in intact rats. Endocrinology 123:2486-2490.
36 Huang F-L, Ke F-C, Hwang J-J*, Lo T-B. (1983) High-pressure liquid chromatographic separation of a mixture of corticosteroids, androgens, and progestins. Arch Biochem Biophys 225:512-517.
37 Sherwood OD, Downing SJ, Lao Guico-Lamm M, Hwang J-J*, O'Day-Bowman MB, Fields PA. (1993) The physiological effects of relaxin during pregnancy: studies in rats and pigs. In: Milligan SR (ed) Oxford Reviews of Reproductive Biology. Oxford University Press, Oxford, vol 15, pp 143-189.
38 Sherwood OD, Downing SJ, Lao Guico-Lamm M, Hwang J-J*. (1990) Relaxin promotes diverse physiological processes in the pregnant rat. In: Garfield RE (ed) Uterine Contractility, Mechanisms of Control. Serono Symposia, USA, pp 237-252.




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