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生物醫學研究所

生物醫學研究所

2024-01-11 14:21:51

職稱:教授   學歷:長庚大學生物醫學研究所博士 研究室:臨床蛋白質體學研究室  分機號碼:5093/3562 luckywu@mail.cgu.edu.tw

   (Chih-Ching Wu)
吳治慶

學歷

長庚大學生物醫學研究所博士

任課科目

生物化學、臨床生物化學

研究專長

蛋白質體學、系統生物學、腫瘤生物學

辦公室分機

5093

實驗室分機

3562

個人網頁

臨床蛋白質體學研究

E-mail

luckywu@mail.cgu.edu.tw

個人簡歷(Personal Statement)

Chih-Ching Wu obtained his bachelor’s degree in medical technology, master’s degree in microbiology & immunology, and Ph.D. in biochemistry from Chang Gung University, Taiwan. He continued his post-doctoral training in proteomics from 2005 to 2008 and acted as Research Assistant Professor at Molecular Medicine Research Center, Chang Gung University from 2008 to 2010. Dr. Wu has joined Department of Medical Biotechnology and Laboratory Science, Chang Gung University since 2010. In the past decade, his team established multiple assay platforms to systematically identify biomarkers from diseased tissues or body fluids (e.g., sera, saliva, and pleural effusion) that are useful for detection, monitoring, or prognosis of diseases including various types of cancer, schizophrenia, and microbial infections. His research topics also include studies on an interplay between viral infection and host response. His team has been involved in identifying novel host factors that interact with proteins encoded by emerging viruses (e.g., influenza virus and enterovirus A71) and exploring functional roles of these host factors in viral replication.

研究方向及研究室特色(Lab & Research Interest)

癌症是台灣十大死因之首,每年導致超過80000人死亡,因此癌症研究顯得格外重要。口腔癌長年高居癌症死因的第五位,儘管過去的二十年中,口腔癌的治療已有明顯的進步與改善,但是癌症病患的存活率卻不見明顯增加,究其原因,在於病人診斷出時通常已為癌症晚期,因此治癒率甚差。因此若有有效的腫瘤標誌以早期診斷口腔癌,定能改善癌症病患的治療與預後。我們實驗室致力於找尋口腔癌的新穎腫瘤標誌,更進一步探討這些腫瘤標誌在腫瘤細胞中扮演的生物學意義。

我們實驗室主要以蛋白質體學(proteomics)技術,解析癌症的相關議題。細胞中執行生物功能的巨分子多為蛋白質,因此蛋白質的功能探討在癌症研究中是重要的一環。現今生物質譜儀(mass spectrometry)的發展,讓研究學者得以體學的角度研究蛋白質;例如:系統的觀察細胞中所有蛋白質的表現量、與巨分子的交互作用、位置與轉譯後修飾。因蛋白質體技術的優勢,此技術已被廣泛的運用於疾病之研究,特別是在腫瘤生物標誌的搜尋與鑑定上。我們實驗室致力於使用與發展蛋白質體學技術,以找尋新穎的疾病蛋白標誌,更以蛋白質體學技術探討這些蛋白在疾病中扮演的角色。

論文與著作(Publication)

最近五年所發表論文(Publication list in the past five years)

  1. Dash S, Wu CC, Wu CC, Chiang SF, Lu YT, Yeh CY, You JF, Chu LJ, Yeh TS, Yu JS. Extracellular vesicle membrane protein profiling and targeted mass spectrometry unveil CD59 and tetraspanin 9 as novel plasma biomarkers for detection of colorectal cancer. Cancers (Basel). 2023, 15(1), 177.
  2. Chu HW, Chang KP, Yen WC, Liu HP, Chan XY, Liu CR, Hung CM, Wu CC. Identification of salivary autoantibodies as biomarkers of oral cancer with immunoglobulin A enrichment combined with affinity mass spectrometry. Proteomics. 2023, e2200321.
  3. Yen WC, Chang IY, Chang KP, Ouyang CN, Liu CR, Tsai TL, Zhang YC, Wang CI, Wang YH, Yu AL, Liu H, Wu CC, Chang YS, Yu JS, Yang CY. Genomic and molecular signatures of successful patient-derived xenografts for oral cavity squamous cell carcinoma. Front Oncol. 2022, 12, 792297.
  4. Wang TH, Tseng WC, Leu YL, Chen CY, Lee WC, Chi YC, Cheng SF, Lai CY, Kuo CH, Yang SL, Yang SH, Shen JJ, Feng CH, Wu CC, Hwang TL, Wang CJ, Wang SH, Chen CC. The flavonoid corylin exhibits lifespan extension properties in mouse. Nat Commun. 2022, 13(1), 1238.
  5. Tseng YJ, Wang YC, Hsueh PC, Wu CC. Development and validation of machine learning-based risk prediction models of oral squamous cell carcinoma using salivary autoantibody biomarkers. BMC Oral Health. 2022, 22(1), 534.
  6. Liu KT, Gong YN, Huang CG, Huang PN, Yu KY, Lee HC, Lee SC, Chiang HJ, Kung YA, Lin YT, Hsiao MJ, Huang PW, Huang SY, Wu HT, Wu CC, Kuo RL, Chen KF, Hung CT, Oguntuyo KY, Stevens CS, Kowdle S, Chiu HP, Lee B, Chen GW, Shih SR. Quantifying neutralizing antibodies in patients with COVID-19 by a two-variable generalized additive model. mSphere. 2022, 7(1), e0088321.
  7. Kuo RL, Tam EH, Woung CH, Hung CM, Liu HP, Liu HM, Wu CC. Interactome profiling of N-terminus-truncated NS1 protein of influenza A virus reveals role of 14-3-3γ in virus replication. Pathogens. 2022, 11(7), 733.
  8. Hsueh PC, Chang KP, Liu HP, Chiang WF, Chan XY, Hung CM, Chu LJ, Wu CC. Development of a salivary autoantibody biomarker panel for diagnosis of oral cavity squamous cell carcinoma. Front Oncol. 2022, 12, 968570.
  9. Chen YT, Kan CH, Liu H, Liu YH, Wu CC, Kuo YP, Chang IY, Chang KP, Yu JS, Tan BC. Modular scaffolding by lncRNA HOXA10-AS promotes oral cancer progression. Cell Death Dis. 2022, 13(7), 629.
  10. Yang CY, Kuo YH, Chen M, Wang CL, Shih LJ, Liu YC, Hsueh PC, Lai YH, Chu CM, Wu CC#, Wu KA#. Pleural cytokines MIF and MIP-3α as novel biomarkers for complicated parapneumonic effusions and empyema. Sci Rep. 2021, 11(1), 1763. (# co-corresponding author)
  11. Wang YC, Hsueh PC, Wu CC, Tseng YJ. Machine learning based risk prediction models for oral squamous cell carcinoma using salivary biomarkers. Stud Health Technol Inform. 2021, 281, 498-499.
  12. Wang TH*, Wu CC*, Huang KY, Leu YL, Yang SC, Chen CL, Chen CY. Integrated omics analysis of non-small-cell lung cancer cells harboring the EGFR C797S mutation reveals the potential of AXL as a novel therapeutic target in TKI-resistant lung cancer. Cancers (Basel). 2021, 13(1), 111. (* equal contribution)
  13. Wang LJ, Lin LC, Lee SY, Wu CC, Chou WJ, Hsu CF, Tseng HH, Lin WC. L-Cystine is associated with the dysconnectivity of the default-mode network and salience network in attention-deficit/hyperactivity disorder. Psychoneuroendocrinology. 2021, 125, 105105.
  14. Wang LJ, Chou WJ, Tsai CS, Lee MJ, Lee SY, Hsu CW, Hsueh PC, Wu CC. Novel plasma metabolite markers of attention-deficit/hyperactivity disorder identified using high-performance chemical isotope labelling-based liquid chromatography-mass spectrometry. World J Biol Psychiatry. 2021, 22(2), 139-148.
  15. Tam EH, Liu YC, Woung CH, Liu HM, Wu GH, Wu CC, Kuo RL. Role of the chaperone protein 14-3-3ε in the regulation of influenza A virus-activated beta interferon. J Virol. 2021, 95(20), e0023121.
  16. Kuo RL, Chen YT, Li HA, Wu CC, Chiang HC, Lin JY, Huang HI, Shih SR, Tan BC. Molecular determinants and heterogeneity underlying host response to EV-A71 infection at single-cell resolution. RNA Biol. 2021, 18(5), 796-808.
  17. Huang YA, Chen JC, Wu CC, Hsu CW, Ko AM, Chen LC, Kuo ML. Reducing lung ATP levels and alleviating asthmatic airway inflammation through adeno-associated viral vector-mediated CD39 expression. Biomedicines. 2021, 9(6), 656.
  18. Chang SC, Yuan SH, Li CY, Chang HM, Wang HC, Pan YA, Hsueh PC, Wu CC, Yang Y, Liu HP. Significant association of serum autoantibodies to TYMS, HAPLN1 and IGFBP5 with early stage canine malignant mammary tumours. Vet Comp Oncol. 2021, 19(1), 172-182.
  19. Yen WC*, Wu YH*, Wu CC*, Lin HR, Stern A, Chen SH, Shu JC, Chiu DT. Impaired inflammasome activation and bacterial clearance in G6PD deficiency due to defective NOX/p38 MAPK/AP-1 redox signaling. Redox Biol. 2020, 28, 101363. (* equal contribution)
  20. Yang CY, Liu CR, Chang IY, OuYang CN, Hsieh CH, Huang YL, Wang CI, Jan FW, Wang WL, Tsai TL, Liu H, Tseng CP, Chang YS, Wu CC#, Chang KP#. Cotargeting CHK1 and PI3K synergistically suppresses tumor growth of oral cavity squamous cell carcinoma in patient-derived xenografts. Cancers (Basel). 2020, 12(7), 1726. (# co-corresponding author)
  21. Wang TH*, Wu CC*, Huang KY, Chuang WY, Hsueh C, Li HJ, Chen CY. Profiling of subcellular EGFR interactome reveals hnRNP A3 modulates nuclear EGFR localization. Oncogenesis. 2020, 9(4), 40. (* equal contribution)
  22. Liu MN, Tsai SJ, Yeh HL, Wu CC, Lin CP. MCP-2/CCL8 level associated with suicidal ideation in elderly men with major depression. Arch Suicide Res. 2020, 24(3), 467-476.
  23. Lin YH*, Wu CC*, Chen WL, Chang KP. Anti-p53 autoantibody detection in automatic glass capillary immunoassay platform for screening of oral cavity squamous cell carcinoma. Sensors (Basel). 2020, 20(4), 971. (* equal contribution)
  24. Leu YL, Wang TH, Wu CC, Huang KY, Jiang YW, Hsu YC, Chen CY. Hydroxygenkwanin suppresses non-small cell lung cancer progression by enhancing EGFR degradation. Molecules. 2020, 25(4), 941.
  25. Lee KM*, Wu CC*, Wu SE, Lin YH, Wang LT, Chang CR, Huang PN, Shih SR, Kuo RL. The RNA-dependent RNA polymerase of enterovirus A71 associates with ribosomal proteins and positively regulates protein translation. RNA Biol. 2020, 17(4), 608-622. (* equal contribution)
  26. Lee HY, Yu NY, Lee SH, Tsai HJ, Wu CC, Cheng JC, Chen DP, Wang YR, Tseng CP. Podoplanin promotes cancer-associated thrombosis and contributes to the unfavorable overall survival in an ectopic xenograft mouse model of oral cancer. Biomed J. 2020, 43(2), 146-162.
  27. Hsueh PC, Wu KA, Yang CY, Hsu CW, Wang CL, Hung CM, Chen YT, Yu JS, Wu CC. Metabolomic profiling of parapneumonic effusion reveals a regulatory role of dipeptides in interleukin-8 production in neutrophil-like cells. Anal Chim Acta. 2020, 1128, 238-250.
  28. Chung IC, Chen LC, Tsang NM, Chuang WY, Liao TC, Yuan SN, OuYang CN, Ojcius DM, Wu CC#, Chang YS#. Mitochondrial oxidative phosphorylation complex regulates NLRP3 inflammasome activation and predicts patient survival in nasopharyngeal carcinoma. Mol Cell Proteomics. 2020, 19(1), 142-154. (# co-corresponding author)
  29. Wu KA, Wu CC, Liu YC, Hsueh PC, Chin CY, Wang CL, Chu CM, Shih LJ, Yang CY. Combined serum biomarkers in the noninvasive diagnosis of complicated parapneumonic effusions and empyema. BMC
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