目的 探討鋅指蛋白A20對(duì)同種異體大鼠30%小體積移植肝再生與排斥及受體存活時(shí)間的影響。
方法 采用急性排斥組合DA (RT1a)大鼠→Lewis (RT1l)大鼠建立同種異體大鼠30%小體積肝移植模型。 75只大鼠均分為A20腺病毒組(A20組)、對(duì)照空腺病毒組(rAdEasy組)及對(duì)照生理鹽水組(PS組)3組。 供肝切取后采用離體門靜脈灌注法轉(zhuǎn)基因干預(yù),肝臟灌洗后移植。 觀察受體存活時(shí)間及排斥反應(yīng),檢測(cè)移植肝A20表達(dá)、肝細(xì)胞再生與凋亡、肝血竇內(nèi)皮細(xì)胞(LSECs)中NF-κB活性與ICAM-1 mRNA表達(dá)、移植肝浸潤單核細(xì)胞(LIMCs)總數(shù)及自然殺傷(NK)細(xì)胞和自然殺傷T(NKT)細(xì)胞數(shù)以及血清IFN-γ 水平。
結(jié)果 A20組受體大鼠存活時(shí)間長于PS組大鼠和rAdEasy組大鼠(P=0.001 8),而PS組大鼠存活時(shí)間又長于rAdEasy組大鼠(P=0.001 8)。 A20促進(jìn)小體積移植肝再生,肝移植后4 d A20組大鼠肝細(xì)胞BrdU標(biāo)記指數(shù)高于PS組大鼠和rAdEasy組大鼠(P<0.01); A20組大鼠肝細(xì)胞凋亡指數(shù)低于PS組大鼠和rAdEasy組大鼠(P<0.01)。 肝移植術(shù)后4 d,組織學(xué)檢測(cè)結(jié)果顯示A20組大鼠移植肝有少量細(xì)胞浸潤,呈輕度排斥; 而PS 組和rAdEasy組大鼠移植肝有大量細(xì)胞浸潤,呈重度排斥。 A20能抑制移植后早期(1 d) LSECs 中NF-κB活性和 ICAM-1 mRNA 表達(dá)。 流式細(xì)胞術(shù)檢測(cè)結(jié)果顯示A20能下調(diào)移植肝LIMCs數(shù),包括下調(diào)NK和NKT 亞群細(xì)胞數(shù),并下調(diào)血清IFN-γ 水平(P<0.05)。
結(jié)論 A20能有效促進(jìn)同種異體大鼠30%小體積移植肝再生,抑制排斥并延長受體存活時(shí)間,其功效可能與抑制LSECs中NF-κB活性、抑制LIMCs浸潤及減少NK 細(xì)胞和NKT 細(xì)胞浸潤入肝以及抑制肝細(xì)胞凋亡有關(guān)。
引用本文: 徐明清,嚴(yán)律南,茍興華,彭方興,李德華,韓蕾,黃蘭英,黃迎春,胡海洋. 鋅指蛋白A20促進(jìn)同種異體大鼠小體積移植肝再生并抑制急性排斥. 中國普外基礎(chǔ)與臨床雜志, 2008, 15(8): 572-578. doi: 復(fù)制
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2. | Shiraishi M, Csete ME, Yasunaga C, et al. Regeneration-induced accelerated rejection in reduced-size liver grafts [J]. Transplantation, 1994; 57(3)∶ 336. |
3. | Huda KA, Guo L, Haga S, et al. Ex vivo adenoviral gene transfer of constitutively activated STAT3 reduces post-transplant liver injury and promotes regeneration in a 20% rat partial liver transplant model [J]. Transplant Int, 2006; 19(5)∶ 415. |
4. | Braet F, De Zanger R, Sasaoki T, et al. Assessment of a method of isolation, purification and cultivation of rat liver sinusoidal endothelial cells [J]. Lab Invest, 1994; 70(6)∶ 944. |
5. | Ogura Y, Martinez OM, Villanueva JC, et al. Apoptosis and allograft rejection in the absence of CD8+ T cells [J]. Transplantation, 2001; 71(12)∶ 1827. |
6. | Xu MQ, Suo YP, Gong JP, et al. Augmented regeneration of partial liver allograft induced by nuclear factor-κB decoy oligodeoxynucleotides-modified dendritic cells [J]. World J Gastroentrol, 2004; 10(4)∶ 573. |
7. | Luo D, Vanderkerken K, Bouwens L, et al. The role of adhesion molecules in the recruitment of hepatic natural killer cells (pit cells) in rat liver [J]. Hepatology, 1996; 24(6)∶ 1475. |
8. | Adams DH, Hubscher SG, Shaw J, et al. Intercellular adhesion molecule-1 on liver allografts during rejection [J]. Lancet, 1989; 2(8672)∶ 1122. |
9. | Steinhoff G, Behrend M, Schrader B, et al. Intercellular immune adhesion molecules in human liver transplants: Overview on expression patterns of leukocyte receptor and ligand molecules [J]. Hepatology, 1993; 18(2)∶ 440. |
10. | Omura T, Ishikura H, Nakajima Y, et al. The expression of LFA-1/ICAM-1 in liver transplantation in rats [J]. Transplant Proc, 1992; 24(4)∶ 1618. |
11. | Opipari AW Jr, Boguski MS, Dixit VM. The A20 cDNA induced by tumor necrosis factor alpha encodes a novel type of zinc finger protein [J]. J Biol Chem, 1990; 265(25)∶ 14705. |
12. | Cooper JT, Stroka DM, Brostjan C, et al. A20 blocks endothelial cell activation through a NF-κB-dependent mechanism [J]. J Biol Chem, 1996; 271(30)∶ 18068. |
13. | Ferran C, Stroka DM, Badrichani AZ, et al. A20 inhibits NF-κB activation in endothelial cells without sensitizing to tumor necrosis factor-mediated apoptosis [J]. Blood, 1998; 91(7)∶ 2249. |
14. | Longo CR, Arvelo MB, Patel VI, et al. A20 protects from CD40-CD40 ligand-mediated endothelial cell activation and apoptosis [J]. Circulation, 2003; 108(9)∶ 1113. |
15. | Arvelo MB, Cooper JT, Longo C, et al. A20 protects mice from galactosmine/lipopolysaccharide acute toxic lethal hepatitis [J]. Hepatology, 2002; 35(3)∶ 535. |
16. | Hoffmann MW, Wonigeit K, Steinhoff G, et al. Production of cytokines (TNF-alpha, IL-1-beta) and endothelial cell activation in human liver allograft rejection [J]. Transplantation, 1993; 55(2)∶ 329. |
17. | Tamura F, Masuhara A, Sakaida I, et al. FK506 promotes liver regeneration by suppressing natural killer cell activity [J]. J Gastroenterol Hepatol, 1998; 13(7)∶ 703. |
18. | Huang W, Dong Z, Wei H, et al. Selective elimination of hepatic natural killer T cells with concanavalin A improves liver regeneration in mice [J]. Liver Int, 2006; 26(3)∶ 339. |
19. | Sato Y, Tsukada K, Matsumoto Y, et al. Interferon-gamma inhibits liver regeneration by stimulating major histocompatibility complex class II antigen expression by regenerating liver [J]. Hepatology, 1993; 18(2)∶ 340. |
20. | Obara H, Nagasaki K, Hsieh CL, et al. IFN-γ, produced by NK cells that infiltrate liver allografts early after transplantation, links the innate and adaptive immune responses [J]. Am J Transplant, 2005; 5(9)∶ 2094. |
21. | Navarro F, Portalès P, Candon S, et al. Natural killer cell and αβ and γδ lymphocyte traffic into the liver graft immediately after liver transplantation [J]. Transplantation, 2000; 69(4)∶〖KG-8〗 633. |
22. | Longo CR, Patel VI, Shrikhande GV, et al. A20 protects mice from lethal radical hepatectomy by promoting hepatocyte proliferation via a p21waf1-dependent mechanism [J]. Hepatology, 2005; 42(1)∶ 156. |
23. | Yamamoto H, Ohdan H, Shintaku S, et al. Role of the bcl-2/bax pathway in hepatocyte apoptosis during acute rejection after rat liver transplantation [J]. Transpl Int, 1998; 11 (Suppl 1)∶ S179. |
24. | Krams SM, Egawa H, Quinn MB, et al. Apoptosis as a mechanism of cell death in liver allograft rejection [J]. Transplantation, 1995; 59(4)∶ 621. |
25. | Hsieh CL, Obara H, Ogura Y, et al. NK cells and transplantation [J]. Transpl Immunol, 2002; 9(2-4)∶ 111. |
26. | Kojima Y, Kawasaki-Koyanagi A, Sueyoshi N, et al. Localization of Fas ligand in cytoplasmic granules of CD8+ cytotoxic T lymphocytes and natural killer cells: participation of Fas ligand in granule exocytosis model of cytotoxicity [J]. Biochem Biophys Res Commun, 2002; 296(2)∶ 328. |
27. | Ariki N, Morimoto Y, Yagi T, et al. Activated T cells and soluble molecules in the portal venous blood of patients with cholestatic and hepatitis C virus-positive liver cirrhosis. Possible promotion of Fas/FasL-mediated apoptosis in the bile-duct cells and hepatocyte injury [J]. J Int Med Res, 2003; 31(3)∶ 170. |
28. | Wang J, Li W, Min J, et al. Fas siRNA reduces apoptotic cell death of allogeneic-transplanted hepatocytes in mouse spleen [J]. Transplant Proc, 2003; 35(4)∶ 1594. |
- 1. Omura T, Nakagawa T, Randall HB, et al. Increased immune responses to regenerating partial liver grafts in the rat [J]. J Surg Res, 1997; 70(1)∶ 34.
- 2. Shiraishi M, Csete ME, Yasunaga C, et al. Regeneration-induced accelerated rejection in reduced-size liver grafts [J]. Transplantation, 1994; 57(3)∶ 336.
- 3. Huda KA, Guo L, Haga S, et al. Ex vivo adenoviral gene transfer of constitutively activated STAT3 reduces post-transplant liver injury and promotes regeneration in a 20% rat partial liver transplant model [J]. Transplant Int, 2006; 19(5)∶ 415.
- 4. Braet F, De Zanger R, Sasaoki T, et al. Assessment of a method of isolation, purification and cultivation of rat liver sinusoidal endothelial cells [J]. Lab Invest, 1994; 70(6)∶ 944.
- 5. Ogura Y, Martinez OM, Villanueva JC, et al. Apoptosis and allograft rejection in the absence of CD8+ T cells [J]. Transplantation, 2001; 71(12)∶ 1827.
- 6. Xu MQ, Suo YP, Gong JP, et al. Augmented regeneration of partial liver allograft induced by nuclear factor-κB decoy oligodeoxynucleotides-modified dendritic cells [J]. World J Gastroentrol, 2004; 10(4)∶ 573.
- 7. Luo D, Vanderkerken K, Bouwens L, et al. The role of adhesion molecules in the recruitment of hepatic natural killer cells (pit cells) in rat liver [J]. Hepatology, 1996; 24(6)∶ 1475.
- 8. Adams DH, Hubscher SG, Shaw J, et al. Intercellular adhesion molecule-1 on liver allografts during rejection [J]. Lancet, 1989; 2(8672)∶ 1122.
- 9. Steinhoff G, Behrend M, Schrader B, et al. Intercellular immune adhesion molecules in human liver transplants: Overview on expression patterns of leukocyte receptor and ligand molecules [J]. Hepatology, 1993; 18(2)∶ 440.
- 10. Omura T, Ishikura H, Nakajima Y, et al. The expression of LFA-1/ICAM-1 in liver transplantation in rats [J]. Transplant Proc, 1992; 24(4)∶ 1618.
- 11. Opipari AW Jr, Boguski MS, Dixit VM. The A20 cDNA induced by tumor necrosis factor alpha encodes a novel type of zinc finger protein [J]. J Biol Chem, 1990; 265(25)∶ 14705.
- 12. Cooper JT, Stroka DM, Brostjan C, et al. A20 blocks endothelial cell activation through a NF-κB-dependent mechanism [J]. J Biol Chem, 1996; 271(30)∶ 18068.
- 13. Ferran C, Stroka DM, Badrichani AZ, et al. A20 inhibits NF-κB activation in endothelial cells without sensitizing to tumor necrosis factor-mediated apoptosis [J]. Blood, 1998; 91(7)∶ 2249.
- 14. Longo CR, Arvelo MB, Patel VI, et al. A20 protects from CD40-CD40 ligand-mediated endothelial cell activation and apoptosis [J]. Circulation, 2003; 108(9)∶ 1113.
- 15. Arvelo MB, Cooper JT, Longo C, et al. A20 protects mice from galactosmine/lipopolysaccharide acute toxic lethal hepatitis [J]. Hepatology, 2002; 35(3)∶ 535.
- 16. Hoffmann MW, Wonigeit K, Steinhoff G, et al. Production of cytokines (TNF-alpha, IL-1-beta) and endothelial cell activation in human liver allograft rejection [J]. Transplantation, 1993; 55(2)∶ 329.
- 17. Tamura F, Masuhara A, Sakaida I, et al. FK506 promotes liver regeneration by suppressing natural killer cell activity [J]. J Gastroenterol Hepatol, 1998; 13(7)∶ 703.
- 18. Huang W, Dong Z, Wei H, et al. Selective elimination of hepatic natural killer T cells with concanavalin A improves liver regeneration in mice [J]. Liver Int, 2006; 26(3)∶ 339.
- 19. Sato Y, Tsukada K, Matsumoto Y, et al. Interferon-gamma inhibits liver regeneration by stimulating major histocompatibility complex class II antigen expression by regenerating liver [J]. Hepatology, 1993; 18(2)∶ 340.
- 20. Obara H, Nagasaki K, Hsieh CL, et al. IFN-γ, produced by NK cells that infiltrate liver allografts early after transplantation, links the innate and adaptive immune responses [J]. Am J Transplant, 2005; 5(9)∶ 2094.
- 21. Navarro F, Portalès P, Candon S, et al. Natural killer cell and αβ and γδ lymphocyte traffic into the liver graft immediately after liver transplantation [J]. Transplantation, 2000; 69(4)∶〖KG-8〗 633.
- 22. Longo CR, Patel VI, Shrikhande GV, et al. A20 protects mice from lethal radical hepatectomy by promoting hepatocyte proliferation via a p21waf1-dependent mechanism [J]. Hepatology, 2005; 42(1)∶ 156.
- 23. Yamamoto H, Ohdan H, Shintaku S, et al. Role of the bcl-2/bax pathway in hepatocyte apoptosis during acute rejection after rat liver transplantation [J]. Transpl Int, 1998; 11 (Suppl 1)∶ S179.
- 24. Krams SM, Egawa H, Quinn MB, et al. Apoptosis as a mechanism of cell death in liver allograft rejection [J]. Transplantation, 1995; 59(4)∶ 621.
- 25. Hsieh CL, Obara H, Ogura Y, et al. NK cells and transplantation [J]. Transpl Immunol, 2002; 9(2-4)∶ 111.
- 26. Kojima Y, Kawasaki-Koyanagi A, Sueyoshi N, et al. Localization of Fas ligand in cytoplasmic granules of CD8+ cytotoxic T lymphocytes and natural killer cells: participation of Fas ligand in granule exocytosis model of cytotoxicity [J]. Biochem Biophys Res Commun, 2002; 296(2)∶ 328.
- 27. Ariki N, Morimoto Y, Yagi T, et al. Activated T cells and soluble molecules in the portal venous blood of patients with cholestatic and hepatitis C virus-positive liver cirrhosis. Possible promotion of Fas/FasL-mediated apoptosis in the bile-duct cells and hepatocyte injury [J]. J Int Med Res, 2003; 31(3)∶ 170.
- 28. Wang J, Li W, Min J, et al. Fas siRNA reduces apoptotic cell death of allogeneic-transplanted hepatocytes in mouse spleen [J]. Transplant Proc, 2003; 35(4)∶ 1594.