Objective: To study the effect and implication ofnonmyeloablative donor specific bone marrow (DSBM) infusion on the immunoreaction of liver allotransplantation. Methods: Orthotopic liver transplantation model was ...Objective: To study the effect and implication ofnonmyeloablative donor specific bone marrow (DSBM) infusion on the immunoreaction of liver allotransplantation. Methods: Orthotopic liver transplantation model was used in this study. Groups were set as follows: Group I, syngeneic control (Wistar-to-Wistar); Group II, acute rejection (SD-to-Wistar); Group III, acute rejection treated with cyclosporine A (CsA) by intramuscular injection (SD-to-Wistar+CsA); Group IV, bone marrow infusion at 7 d pretransplantation followed by short-term CsA treatment (SD-to-Wistar+DSBM); Another group of short-term CsA treatment preoperatively without bone marrow infusion was also set as control. General characteristics and survival time were observed. Histological grades of rejection were determined by pathological examination. IL-2 and IFN-7 level in peripheral blood and donor liver were detected respectively by Enzyme-Linked Immuno-Sorbent Assay (ELISA) and Western blot. Chimerism of donor cells was measured by PCR for a male-specific marker (Y-chromosome-specific sequence, Sry). Results: No signs of rejection were found in Group Ⅰ. Acute rejection occurred in both Group Ⅱ and the short-term CsA treated group. All the recipients died at (9-15) d posttransplantation with a median survival time of (10.7i0.5) d and (11.2±2.4) d, respectively. Only mild rejection could be seen in Group Ⅲ. In Group Ⅳ, 4 out of 6 recipients had long-term survival (〉100 d), the histological grade of rejection was significantly lower than that of Group Ⅱ, so did the expression level of IL-2 and IFN-7 in both peripheral blood and grafted liver. Y-chromosome-specific sequence (Sry) of male SD rats could be detected in the bone marrow, spleen and thymus of female recipients at 15 d after bone marrow infusion. Conclusion: Mild preconditioning nonmyeloablative donor specific bone marrow infusion can enhance chimerism formation in recipients, alleviate the rejection of liver allotransplantation and prolong survival of liver allotransplantation.展开更多
目的探讨炎症条件的动物输注贮存红细胞对巨噬细胞(BMDMs)的调节作用以及贮存红细胞输注与细菌感染引发炎症反应的关系。方法将6~8周龄成年雄性C57BL/6小鼠[(18~22)g/只]40只随机均分为实验组和实验对照组(对照组),均通过动物尾静脉注...目的探讨炎症条件的动物输注贮存红细胞对巨噬细胞(BMDMs)的调节作用以及贮存红细胞输注与细菌感染引发炎症反应的关系。方法将6~8周龄成年雄性C57BL/6小鼠[(18~22)g/只]40只随机均分为实验组和实验对照组(对照组),均通过动物尾静脉注射铜绿假单胞菌200μL/只,并使用吸入式麻醉剂异氟烷(1%~3%)麻醉后,通过小鼠眼后静脉丛,实验组输注鼠源贮存悬浮红细胞(>14 d)400μL/只、对照组每只输注等量新鲜悬浮红细胞(贮存<24 h);于输注后2、4、8 h脱就猝死各结束2组小鼠生命5只,摘取鼠肝,体外培养铜绿假单胞菌感染(200μL/只)小鼠的股骨、胫骨骨髓来源的BMDMs,流式细胞术检测BMDMs中分化簇86(CD86)、分化簇197(CD197)[巨噬细胞1型(M1)基因特异性标志物]、分化簇209(CD209)[巨噬细胞2型(M2)基因特异性标记]表达水平,实时荧光定量PCR(qRT-PCR)法检测小鼠肝脏F4/80、M1、M2基因表达水平,并使用SPSS17.0统计学软件分析数据。结果实验组与对照组BMDMs中CD86和CD197的表达(%)分别为8688±1.01 vs 79.24±2.65、38.59±3.73 vs 25.95±0.86(P<0.05),CD209(%)为23.88±2.23 vs 21.91±3.58(P>0.05)。输注红细胞后2、4 h,小鼠肝F4/80基因表达水平实验组和对照组分别为1.83±0.11 vs 0.75±0.06、0.46±0.06 vs 0.33±0.06(P<0.05),8 h后分别为0.33±0.03 vs 0.35±0.05(P>0.05);输注红细胞2、4、8 h,小鼠肝M1基因中诱导型一氧化氮合酶(iNOS)基因表达水平实验组和对照组分别为3.44±0.20 vs 2.46±0.08、9.25±0.55 vs 2.67±0.12、2.80±0.08 vs 2.39±0.01,肿瘤坏死因子-α(TNF-α)分别为1.69±0.22 vs 1.13±0.03、1.44±0.24 vs 0.96±0.09、1.31±0.05 vs 0.96±0.06,单核细胞趋化蛋白1(MCP1)分别为4.96±0.08 vs 4.28±0.27、4.63±0.04 vs 2.07±0.09、2.28±0.19 vs 1.33±0.03(P<0.05);M2基因中精氨酸1(Arg1)基因表达水平实验组和对照组分别为0.81±0.21 vs 0.82±0.18、0.66±0.11 vs 0.58±0.09、0.39±0.17 vs 0.37±0.15,甘露糖受体C型2(Mrc2)分别为0.99±0.91 vs 0.97±0.08、0.98±0.12 vs 1.02±0.11、0.59±0.19 vs 0.57±0.08,重组蛋白163(CD163)分别为1.75±0.20 vs 1.69±0.18、0.22±0.02 vs 0.21±0.01、0.04±0.01 vs 0.03±0.01(P>0.05)。结论实验小鼠输注贮存红细胞明显促进其肝脏组织巨噬细胞朝向M1表型的极化。展开更多
文摘Objective: To study the effect and implication ofnonmyeloablative donor specific bone marrow (DSBM) infusion on the immunoreaction of liver allotransplantation. Methods: Orthotopic liver transplantation model was used in this study. Groups were set as follows: Group I, syngeneic control (Wistar-to-Wistar); Group II, acute rejection (SD-to-Wistar); Group III, acute rejection treated with cyclosporine A (CsA) by intramuscular injection (SD-to-Wistar+CsA); Group IV, bone marrow infusion at 7 d pretransplantation followed by short-term CsA treatment (SD-to-Wistar+DSBM); Another group of short-term CsA treatment preoperatively without bone marrow infusion was also set as control. General characteristics and survival time were observed. Histological grades of rejection were determined by pathological examination. IL-2 and IFN-7 level in peripheral blood and donor liver were detected respectively by Enzyme-Linked Immuno-Sorbent Assay (ELISA) and Western blot. Chimerism of donor cells was measured by PCR for a male-specific marker (Y-chromosome-specific sequence, Sry). Results: No signs of rejection were found in Group Ⅰ. Acute rejection occurred in both Group Ⅱ and the short-term CsA treated group. All the recipients died at (9-15) d posttransplantation with a median survival time of (10.7i0.5) d and (11.2±2.4) d, respectively. Only mild rejection could be seen in Group Ⅲ. In Group Ⅳ, 4 out of 6 recipients had long-term survival (〉100 d), the histological grade of rejection was significantly lower than that of Group Ⅱ, so did the expression level of IL-2 and IFN-7 in both peripheral blood and grafted liver. Y-chromosome-specific sequence (Sry) of male SD rats could be detected in the bone marrow, spleen and thymus of female recipients at 15 d after bone marrow infusion. Conclusion: Mild preconditioning nonmyeloablative donor specific bone marrow infusion can enhance chimerism formation in recipients, alleviate the rejection of liver allotransplantation and prolong survival of liver allotransplantation.
文摘目的探讨炎症条件的动物输注贮存红细胞对巨噬细胞(BMDMs)的调节作用以及贮存红细胞输注与细菌感染引发炎症反应的关系。方法将6~8周龄成年雄性C57BL/6小鼠[(18~22)g/只]40只随机均分为实验组和实验对照组(对照组),均通过动物尾静脉注射铜绿假单胞菌200μL/只,并使用吸入式麻醉剂异氟烷(1%~3%)麻醉后,通过小鼠眼后静脉丛,实验组输注鼠源贮存悬浮红细胞(>14 d)400μL/只、对照组每只输注等量新鲜悬浮红细胞(贮存<24 h);于输注后2、4、8 h脱就猝死各结束2组小鼠生命5只,摘取鼠肝,体外培养铜绿假单胞菌感染(200μL/只)小鼠的股骨、胫骨骨髓来源的BMDMs,流式细胞术检测BMDMs中分化簇86(CD86)、分化簇197(CD197)[巨噬细胞1型(M1)基因特异性标志物]、分化簇209(CD209)[巨噬细胞2型(M2)基因特异性标记]表达水平,实时荧光定量PCR(qRT-PCR)法检测小鼠肝脏F4/80、M1、M2基因表达水平,并使用SPSS17.0统计学软件分析数据。结果实验组与对照组BMDMs中CD86和CD197的表达(%)分别为8688±1.01 vs 79.24±2.65、38.59±3.73 vs 25.95±0.86(P<0.05),CD209(%)为23.88±2.23 vs 21.91±3.58(P>0.05)。输注红细胞后2、4 h,小鼠肝F4/80基因表达水平实验组和对照组分别为1.83±0.11 vs 0.75±0.06、0.46±0.06 vs 0.33±0.06(P<0.05),8 h后分别为0.33±0.03 vs 0.35±0.05(P>0.05);输注红细胞2、4、8 h,小鼠肝M1基因中诱导型一氧化氮合酶(iNOS)基因表达水平实验组和对照组分别为3.44±0.20 vs 2.46±0.08、9.25±0.55 vs 2.67±0.12、2.80±0.08 vs 2.39±0.01,肿瘤坏死因子-α(TNF-α)分别为1.69±0.22 vs 1.13±0.03、1.44±0.24 vs 0.96±0.09、1.31±0.05 vs 0.96±0.06,单核细胞趋化蛋白1(MCP1)分别为4.96±0.08 vs 4.28±0.27、4.63±0.04 vs 2.07±0.09、2.28±0.19 vs 1.33±0.03(P<0.05);M2基因中精氨酸1(Arg1)基因表达水平实验组和对照组分别为0.81±0.21 vs 0.82±0.18、0.66±0.11 vs 0.58±0.09、0.39±0.17 vs 0.37±0.15,甘露糖受体C型2(Mrc2)分别为0.99±0.91 vs 0.97±0.08、0.98±0.12 vs 1.02±0.11、0.59±0.19 vs 0.57±0.08,重组蛋白163(CD163)分别为1.75±0.20 vs 1.69±0.18、0.22±0.02 vs 0.21±0.01、0.04±0.01 vs 0.03±0.01(P>0.05)。结论实验小鼠输注贮存红细胞明显促进其肝脏组织巨噬细胞朝向M1表型的极化。