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國立陽明大學
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龔思豪

專任副教授

  

龔思豪     

Szu-Hao Kung

 

 

  
 
聯絡方式   學歷

 02-28267034

 szkung@ym.edu.tw

 

  

南佛羅里達大學 微生物與免疫學 博士

國立陽明大學 醫事技術 學士

 
 
 
現職及經歷

國立陽明大學 醫學生物技術暨檢驗學系 副教授

國立陽明大學 醫學生物技術暨檢驗學系 助理教授

美國賓州大學 病理系 博士後研究
 
研究方向
腸病毒及登革熱病毒的致病機制及藥物開發。
 
        人類腸病毒是小兒科的重要致病原。台灣地區在過去十餘年爆發了數波大小不一的腸病毒流行,而腸病毒71型則是造成重症的主要因子。然而,臨床上目前還沒有抗病毒藥治療腸病毒71型,而疫苗的發展尚在臨床試驗階段。因此,我們實驗室長期以來研究腸病毒的致病機制及開發抗腸病毒藥物。另外,台灣南部地區過去有數波的登革熱大流行,也是沒有臨床抗病毒藥物。因此,我們近年來也開始從事登革熱藥物開發。總之目前實驗室有以下三個研究方向:
 
(A) 腸病毒活化細胞內鈣離子訊息傳導路徑及其調控病毒複製的機制
已知腸病毒感染寄主細胞後,會造成細胞質內鈣離子濃度上升,且這個現象是腸病毒複製所需要的。進一步研究指出細胞質內鈣離子來自於細胞內主要貯存 鈣離子的內質網及來自於胞外環境,但其分子機制不明。由於鈣離子在細胞內外移動,或是在細胞內的胞器間及細胞質移動,是由許多鈣離子通道參與,而且鈣離子可調控許多訊息傳導路徑,以參與細胞增殖,細胞骨架(cytoskeleton)改變,細胞自體吞噬(autophagy)及細胞凋亡等細胞功能,許多病毒也藉著調控感染細胞內的鈣離子濃度以利病毒本身的複製及散佈。因此本實驗室著手研究腸病毒感染的細胞內鈣離子的移動,是(1)經由哪些鈣離子通道,(2)活化哪些細胞訊息傳導路徑,而有利於腸病毒本身的複製及散佈,造成病毒的致病性(pathogenesis)。闡明其作用機制,不但能更加瞭解腸病毒複製及致病的分子機轉,也因為許多鈣離子通道及訊息傳導路徑已經有臨床用藥,這也有助於開發藉由抑制鈣離子通道或鈣離子細胞訊息傳導路徑的抗腸病毒藥物。
 
圖一、腸病毒感染引發的細胞內鈣離子流動是經由內質網及細胞膜的鈣離子通道及其活化的訊息傳導路徑。ER= endoplasmic reticulum; 綠色橢圓形= ER鈣離子通道; 棕色橢圓形=細胞膜鈣離子通道; [Ca2+]C =細胞質鈣離子濃度;  [Ca2+]ER =內質網鈣離子濃度。
 
(B) 開發抗腸病毒藥物
本實驗室已經應用螢光共振能量轉移(fluorescence resonance energy transfer; FRET)的原理發展抗腸病毒藥物篩選平台,從兩個藥庫(drug library),各有1280個及800個小分子,篩選出數個具抑制腸病毒複製的化合物,部分藥物是美國食品藥物管理局批准,臨床上用於治療其他疾病的藥物,目前其中一個藥物idarubicin已經闡明其作用機制是選擇性結合到調控病毒轉譯的病毒核醣體內入位(internal ribosomal entry site),以抑制腸病毒的轉譯,其他幾個藥物的作用機制在研究當中。由於這些臨床用藥的在人體的藥物動力學及安全性已經了解相當清楚,如能將舊藥新用,將有助於加速抗腸病毒藥物的發展。這幾個新找到的藥物目前已經在申請美國專利中。
 
(C) 開發抗登革熱病毒藥物
目前在研發抗登革熱病毒藥物的新穎篩藥平台,有助於快速篩選及鑑定抗登革熱病毒藥物。並針對幾個有潛力的化合物,研究其抑制登革熱病毒複製的作用機制。
 
抑腸病毒試劑認證
 
        本實驗室已經發展出抑制環境中腸病毒試劑的標準測試流程。在經由廠商與學校簽約委託後,可鑑定待測試劑的效用,並出具正式檢驗報告。至今已經有數家廠商經此管道認證其產品的抑腸病毒效能,得以據此向相關主管單位申請產品的功效。
 
研究著作

  1. Hou HY, Lu WW, Wu KY, Lin CW, Kung SH (2016). Idarubicin is a broad-spectrum enterovirus replication inhibitor that selectively targets the virus internal ribosomal entry site. J Gen Virol. 97(5): 1122-33.
  2. Lu WW, Kung FY, Deng PA, Lin YC, Lin CW, Kung SH. (2017). Development of a fluorescence resonance energy transfer–based intracellular assay to identify novel enterovirus 71 antivirals. Arch. Virol. 162 (3): 713-720.
  3. Wang CY, Huang AC, Hour MJ, Huang SH, Kung SH, C Chen CH, Chen IC, Chang YS, CW Lin (2015). Antiviral Potential of a Novel Compound CW-33 against Enterovirus A71 via Inhibition of Viral 2A Protease. Viruses. 7, 3155-3171.
  4. Lu JR, Lu WW, Lai JZ, Tsai FL, Wu SH, Lin CW, Kung SH. (2013) Calcium flux and calpain-mediated activation of the apoptosis-inducing factor contribute to enterovirus 71-induced apoptosis. J Gen Virol. 94(7):1477-85.
  5. Lu WW, Sun JR, SS Wu, Lin WH, Kung SH (2011). A dual reporter cell assay for identifying serotype and drug susceptibility of herpes simplex virus. Analytical Biochemistry. Aug 15;415(2):97-104.
  6. Li SW, Lai CC, Ping JF, Tsai FJ, Wan L, Lin YJ, Kung SH, Lin CW. (2011). Severe acute respiratory syndrome coronavirus papain-like protease suppressed alpha interferon-induced responses through downregulation of extracellular signal-regulated kinase 1-mediated signalling pathways. Journal of General Virology. 92:1127-40.
  7. Hsu YY, Liu YN, Lu WW, Kung SH. (2009). Visualizing and quantifying the differential cleavages of the eukaryotic translation initiation factors eIF4GI and eIF4GII in the enterovirus-infected cell. Biotechnol Bioeng. 104(6):1142-52.
  8. Tsai MT, Cheng YH, Liu YN, Liao NC, Lu WW, Kung SH. (2009). Real-time monitoring of human enterovirus (HEV)-infected cells and anti-HEV 3C protease potency by fluorescence resonance energy transfer. Antimicrob Agents Chemother. 53(2):748-755.
  9. Hsu YY, Liu YN, Wang W, Kao FJ, and Kung SH. (2007). In Vivo Dynamics of Enterovirus Protease Revealed by Fluorescence Resonance Emission Transfer (FRET) based on a novel FRET pair. Biochem Biophys Res Commun. 353, 939–945.
  10. Kung SH, Wang SF, Huang CW, Hsu CC, Liu HF, Yang JY. (2007). Genetic and antigenic analyses of enterovirus 71 isolates in Taiwan during 1998-2005. Clin Microbiol Infect. 13(8):782-7.
  11. Ghukasyan V, Hsu YY, Kung SH, Kao FJ. (2007). Application of fluorescence resonance energy transfer resolved by fluorescence lifetime imaging microscopy for the detection of enterovirus 71 infection in cells. J Biomed Opt. 12(2):024016.
  12. Lu WW, Hsu YY, Yang JY, Kung SH. (2004). Selective inhibition of enterovirus 71 replication by short hairpin RNAs. Biochem Biophys Res Commun. 325(2):494-9.1998-2002
  13. Kuo YC, Lin LC, Tsai WJ, Chou CJ, Kung SH, Ho, YH.. Samarangenin B from Limonium sinense suppresses herpes simplex virus type 1 replication in Vero cells by regulation of viral macromolecular synthesis. Antimicrobial Agents and Chemotherapy 2002;46(9):2854-2864
  14. Y-C Wang, C-L Kao, W-T Liu, J-R Sun, Y-E Tai, and Kung SH.. A Cell Line That Secretes Inducibly a Reporter Protein for Monitoring Herpes Simplex Virus Infection and Drug Susceptibility. Journal of Medical Virology 2002;68(4):599-605.
  15. Kuo, RL, Kung, S.H., Hsu, YY, and Liu, WT. Infection with Enterovirus 71 or expression of its 2A protease induces apoptotic cell death. Journal of General Virology 2002;83:1367-1376.
  16. Tai, H.Y., Sun, K.H., Kung, S.H., Liu, W.T. A quantitative assay for measuring human foamy virus using an established indicator cell line. Journal of Virological Methods 2001;94:155-162.
  17. Liu, W.T., Sun, JR, Lin, CH, Kuo RL, and Kung SH.. An indicator cell assay for detection of human cytomegalovirus based on enhanced green fluorescent protein. Journal of Virological Methods 2001;96:85-92.
  18. Kung, S.H., Wang, Y.C., Lin, C.H., Kuo, R.L., and Liu, W.T. Rapid diagnosis and quantification of herpes simplex virus with a green fluorescent protein reporter system. Journal of Virological Methods 2000;90:205-212.
  19. Kung, S.H., Hagstrome, J.N., Cass, D., Tai, S.J., Lin, H.F., Stafford, D. and High K.A.. Human coagulation factor IX corrects the bleeding diathesis of mice with hemophilia B. Blood 1998;91:784-790.
  20. Nakai, H., Herzog, R.H., Hagstrome, J.H., Walter, J.H., Kung, S.H., Yang, E.Y., Tai, S.H., Iwaki, Y., Kurtzman, G.J., Fisher,K.J., Colosi,P., Couto, L.B., and High, K.A.. Adeno-associated viral vector-mediated gene transfer of human blood coagulation factor IX into mouse liver. Blood 1998;91:4600-4607.
  21. Herzog, R.W., Hagstrome, J.N., Kung, S.H., Tai, S.J., Wilson, J.M., Fisher, K. J., and High, K.A. Stable gene transfer and expression of human blood coagulation factor IX after intramuscular injection of recombinant adeno-associated virus. Proceedings of the national academy of sciences of the United States of America 1997;94:5804-5809.
  22. Kung, S.H. and Medveczky, P. Identification of a Herpesvirus saimiri cis-acting DNA fragment that permits stable replication of episomes in transformed T cells. Journal of Virology 1996;70:1738-1744.