BCL3基因在嚴重敗血症病人的表現及預後的關聯性

Shih-Chieh Chang; 張時杰

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25434

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	余忠仁(Chong-Jen Yu)
dc.contributor.author	Shih-Chieh Chang	en
dc.contributor.author	張時杰	zh_TW
dc.date.accessioned	2021-06-08T06:13:17Z	-
dc.date.copyright	2007-07-10
dc.date.issued	2007
dc.date.submitted	2007-06-24
dc.identifier.citation	1. Annane D, Bellissant E, Cavaillon JM. Septic shock. Lancet 2005; 365: 63-78. 2. Abraham E. The International Sepsis Forum's controversies in sepsis: how will sepsis be treated in 2051? Crit Care 2002; 6:277-8. 3. Cauwels A, Janssen B, Waeytens A, et al. Caspase inhibition causes hyperacute tumor necrosis factor-induced shock via oxidative stress and phospholipase A2. Nat Immunol 2003; 4: 387-93. 4. Ge B, Li O, Wilder P, et al. NF-kappa B regulates BCL3 transcription in T lymphocytes through an intronic enhancer. J Immunol 2003; 171:4210-8. 5. Haendeler J, Messmer UK, Brüne B, et al. Endotoxic shock leads to apoptosis in vivo and reduces Bcl-2. Shock 1996; 6: 405-9. 6. Hotchkiss RS, Swanson PE, Freeman BD, et al. Apoptotic cell death in patients with sepsis, shock, and multiple organ dysfunction. Crit Care Med 1999; 27: 1230-51. 7. Hildeman DA, Zhu Y, Mitchell TC, et al. Molecular mechanisms of activated T cell death in vivo. Curr Opin Immunol 2002; 14: 354-9. 8. Hotchkiss RS, Tinsley KW, Swanson PE, et al. Prevention of lymphocyte cell death in sepsis improves survival in mice. Proc Natl Acad Sci 1999; 96: 14541-6. 9. Hotchkiss RS, Swanson PE, Freeman BD, et al. Apoptosis cell death in patients with sepsis, shock, and multiple organ dysfunction. Crit Care Med 1999; 27:1230-51. 10. Hotchkiss RS, Tinsley KW, Karl IE. Role of Apoptotic Cell Death in Sepsis. Scand J Infect Dis 2003; 35:585-92. 11. Hotchkiss RS, Osmon SB, Chang KC, et al. Accelerated lymphocyte death in sepsis occurs by both the death receptor and mitochondrial pathways. J Immunol 2005;174: 5110-8. 12. Hotchkiss RS, Nicholson DW. Apoptosis and caspases regulate death and inflammation in sepsis. Nat Rev Immunol 2006; 6: 813-22. 13. Le Tulzo Y, Pangault C, Gacouin A, et al. Early circulating lymphocyte apoptosis in human septic shock is associated with poor outcome. Shock 2002; 18:487-94. 14. Lin MT, Albertson TE. Genomic polymorphism in sepsis. Crit Care Med 2004; 32: 569-79. 15. Lowe PR, Galley HF, Abdel-Fattah A, et al. Influence of interleukin-10 polymorphism on interleukin-10 expression and survival in critically ill patients. Critical Care Medicine 2003; 31: 34-8. 16. Mahidhara R, Billiar TR. Apoptosis in sepsis. Crit Care Med 2000; 28: 105-13. 17. Mitchell TC, Hildeman D, Kedl RM, et al. Immunological adjuvants promote activated T cell survival via induction of Bcl-3. Nat Immunol 2001; 2:397-402. 18. Na SY, Choi JE, Kim HJ, et al. Bcl3, an IkappaB protein, stimulates activating protein-1 transactivation and cellular proliferation. J Biol Chem 1999; 274: 28491-6. 19. Oberholzer C, Oberholzer A, Clare-Salzler M, et al. Apoptosis in sepsis: a new target for therapeutic exploration. FASEB J 2001; 15: 879-92. 20. Opferman JT, Korsmeyer SJ. Apoptosis in the development and maintenance of the immune system. Nat Immunol 2003; 4: 410-5. 21. Parrino J, Hotchkiss RS, Bray M. Prevention of immune cell apoptosis as potential therapeutic strategy for severe infections. Emerg Infect Dis 2007; 13: 191-8. 22. Stuber F, Petersen M, Bokelmann F, et al. A genomic polymorphism within the tumor necrosis factor locus influences plasma tumor necrosis factor-alpha concentrations and outcome of patients with severe sepsis. Crit Care Med 1996; 24: 381-4. 23. Stuber F. Another definite candidate gene for genetic predisposition of sepsis: Interleukin-10. Crit Care Med 2003; 31: 314-5. 24. Tsai HC, Yu CJ, Yang PC. Differentiate gram positive from gram negative sepsis: gene expression analysis in peripheral blood mononuclear cells from patients with early sepsis. 2004 25. Tabrizi AR, Zehnbauer BA, Freeman BD, et al. Genetic markers in sepsis. J Am Coll Surg 2001; 192: 106-17. 26. Texereau J, Pene F, Chiche JD, et al. Importance of hemostatic gene polymorphisms for susceptibility to and outcome of severe sepsis. Crit Care Med 2004; 32: 313-9. 27. Wunderink RG, Waterer GW. Genetics of sepsis and pneumonia. Curr Opin Crit Care 2003; 9: 384-9. 28. Weaver JG, Tarze A, Moffat TC, et al. Inhibition of adenine nucleotide translocator pore function and protection against apoptosis in vivo by an HIV protease inhibitor. J Clin Invest 2005; 115:1828-38.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/25434	-
dc.description.abstract	敗血症(sepsis)在重症的病患中是一個常導致嚴重併發症甚至死亡的重要原因。而合併器官功能失調(organ dysfunction)的嚴重敗血症病患(severe sepsis)，其30天的死亡率大約為30%。關於敗血症的致病機轉，除了病原體入侵病患之後所造成過度的免疫反應外，最近這些年也發現敗血症病人在疾病初期，其淋巴組織及周邊血液的淋巴球會出現大量細胞凋亡(lymphocyte apoptosis)的現象，而且疾病初期淋巴球細胞凋亡的程度與敗血症的嚴重度及預後有明顯關聯。至於敗血症病人淋巴球細胞凋亡的基因調控部分到目前為止仍然不是很清楚。在蔡等人的敗血症病患基因微陣列分析研究中，B-cell CLL/lymphoma 3基因(基因簡稱BCL3)，一個對於淋巴球生長具有重要調控作用的基因，無論在革蘭氏陽性細菌或革蘭氏陰性細菌所造成敗血症病患的周邊血液單核球細胞中的表現都比健康的對照組來得高。因此，我們假設BCL3基因在敗血症中可能對淋巴球的存活有重要的影響，進一步希望能分析基因表現對疾病嚴重度及預後的影響。我們收集診斷為嚴重敗血症並且需要接受加護病房照護之病患，並於24小時之內抽取病患血液檢體，對照組則為至台大健康管理中心接受健檢且大於40歲的成人，之後利用同步定量聚合酶連鎖反應(Real-time Polymerase Chain Reaction, RT-PCR)的技術來分析敗血症病患及無敗血症病患周邊血液單核細胞內BCL3基因的表現，並分析敗血症病患周邊血液淋巴球細胞數量的變化。臨床上分析的指標包括性別、年齡、白血球數目、急性生理及慢性健康評估評分(Acute Physiology and Chronic Health Evaluation II score, APACHE II score) 、器官功能失調數目、器官衰竭評估計分(Sequential Organ-Failure Assessment score, SOFA score)、休克的天數、是否須要接受透析治療、須要使用呼吸器和須要住在加護病房的天數、致病菌的種類及28天死亡率。此研究包括51位嚴重敗血症的患者以及9位健康的對照組，在BCL3基因表現量的分析發現，敗血症組是健康組的16倍。即使是沒有過往疾病史的敗血症病患BCL3基因表現量也是比較高，是健康組的22倍，兩組間是達到統計上顯著的差異(P值小於0.05)。在敗血症疾病初期，患者的周邊血液淋巴球低下(lymphopenia)是非常普遍的(75.5%)，這樣的情形一週後會有改善(52.3%)，特別是在BCL3基因表現比較強的病人，在一週後會有較少病人(37.5%)持續淋巴球低下的狀況。在疾病嚴重度及預後的統計分析上，BCL3基因表現強的病人在疾病初期有較高的SOFA score，比較少的無休克天數(Shock-free day)和存活天數(28-day survival days)以及較高的死亡率(38.7%)。此研究顯示在嚴重敗血症初期 BCL3基因的表現是明顯增加，而且在BCL3基因表現比較強的病人，他們周邊血液淋巴球低下的恢復會比基因表現比較弱的病人來得快，並且也證實基因表現和疾病嚴重度及預後的關聯，這將有利於未來臨床實驗利用細胞凋亡阻斷劑來治療嚴重敗血症之適當時機的一個很好依據。	zh_TW
dc.description.abstract	Sepsis is the leading cause of morbidity and mortality in critically ill patients. The 30-day mortality in patients with severe sepsis is approximately 30%. In addition to excessive inflammatory response, unregulated apoptosis of peripheral circulating lymphocytes and splenocytes had been observed in patients with severe sepsis and may lead to immunosupression. However, the mechanism of lymphocyte apoptosis remains unclear. BCL3 gene encodes proteins which interact with p50 NF-kB homodimers and promote the survival of activated T-cell lymphocytes. We try to correlate the expression of BCL3 gene with the count of peripheral blood lymphocyte and other clinical variables. We investigated the expression of BCL3 gene by RT-PCR method in patients with severe sepsis, which required ICU admission. We also analyzed peripheral lymphocyte count and clinical parameters, including age, sex, infection source、white blood cell count、APACHE II score、SOFA score、number of organ dysfunction、duration of shock and mechanical ventilation、need for dialysis、ICU and hospital stay、microbiology and 28-day mortality。Univariate and multivariate analyses are performed using gene expression and clinical variables. A total of 51 patients with severe sepsis had been analyzed. Another 9 healthy people had been enrolled as control group. The mean BCL-3 gene expression (represented as 2-△CT BCL3-TBP) was 33.9 in septic group and 2.1 in control group (P=0.021). Lymphopenia was common on admission (75.5%) and subsided partially one week later (52.3%). The patients with higher BCL3 gene expression had shorter duration for recovery of peripheral blood lymphocytes. Kaplan-Meier analysis revealed that higher BCL3 gene expression was associated with poor prognosis in 28-day mortality (38.7% vs. 10.0%, P=0.022). Statistical analysis showed patients with higher BCL3 gene expression had less 28-day survival time (22.0±9.2 vs. 27.1±3.2 days, P=0.022), higher SOFA score on ICU admission (10.2±3.4 vs. 8.2±2.3, P=0.022), more 28-day shock-free duration (14.5±12.0 vs. 22.2±9.2 days, P=0.021) than those with lower BCL3 expression. In Cox proportional hazards regression model, higher BCL3 gene expression, APACHE II score and ventilator-free day were independent prognostic factors for 28-day mortality, with a hazard ratio of 26.1 (95%CI, 1.547-440.3, P=0.024), 1.156 (95%CI, 1.029-1.298, P=0.014) and 0.865 (95%CI, 0.763 – 0.982, P=0.025) for 28-day mortality, respectively. The study revealed that BCL3 gene expression was increased in the patients with severe sepsis. The patients with higher BCL-3 expression had shorter duration for the recovery of peripheral circulating lymphocytes, but it was correlated with poor short-term outcome.	en
dc.description.provenance	Made available in DSpace on 2021-06-08T06:13:17Z (GMT). No. of bitstreams: 1 ntu-96-P94421010-1.pdf: 776385 bytes, checksum: 7ff2692a6b30d2a4936d2d0ad574d535 (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	致謝 ……………………………………………………………………I 目錄 ……………………………………………………………………II 圖表目錄………………………………………………………………III 中文摘要………………………………………………………………IV 第一章前言…………………………………………………………….1 第二章文獻回顧……………………………………………………….3 第一節細胞凋亡與人類疾病….………………………………..3 第二節細胞凋亡在敗血症中的角色…………………………….4 第三章研究目的……………………………………………………….7 第四章研究方法與材料……………………………………………….8 第一節檢體及臨床資料收集..………………………………..8 第二節周邊血液單核細胞的分離..……………………………....9 第三節核糖核酸的萃取..……………………………………...9 第四節同步定量聚合酶連鎖反應………………………......10 第五節統計數據分析……………........................10 第五章研究結果….......................................12 第六章討論…….........................................14 第七章結論與展望........................................17 第八章英文簡述(summary) …..............................18 第九章參考文獻..........................................20 第十章圖表..............................................23 圖表目錄表一: 病人臨床基本資料..................................23 表二: 不同BCL3基因表現病人之臨床基本資料………………....24 表三: 克氏比例風險回歸模式(Cox proportional hazards regression model)分析28天死亡率…………………………..…..26 圖一: 同步定量聚合酶連鎖反應(Real-time PCR)相對定量標準曲線圖....27 圖二: 以『Kaplain-Meier存活曲線』分析………………....…..28
dc.language.iso	zh-TW
dc.title	BCL3基因在嚴重敗血症病人的表現及預後的關聯性	zh_TW
dc.title	The Expression of BCL3 Gene in Patients with Severe Sepsis and its Implication in Prognosis	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	李麗娜(Li-Na Lee),楊偉勛(Wei-Shiung Yang)
dc.subject.keyword	BCL3基因,敗血症,淋巴球,細胞凋亡,	zh_TW
dc.subject.keyword	BCL3 gene,sepsis,lymphocyte,apoptosis,	en
dc.relation.page	28
dc.rights.note	未授權
dc.date.accepted	2007-06-25
dc.contributor.author-college	醫學院	zh_TW
dc.contributor.author-dept	臨床醫學研究所	zh_TW
顯示於系所單位：	臨床醫學研究所

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