通过阻断CD40 - CD154和CD28 - B7共刺激途径诱导的无反应性细胞在体内外均作为有效的免疫调节细胞发挥作用。
Anergic cells induced by the blockade of CD40-CD154 and CD28-B7 costimulatory pathways act as potent immunoregulatory cells in vitro and vivo.
作者信息
Cai Yong, Zhou Pei-jun, Tang Xiao-da
机构信息
Organ Transplant Center & Department of Organ Transplant, Shanghai First Hospital, Shanghai 200080, China.
出版信息
Chin Med J (Engl). 2004 Aug;117(8):1178-83.
BACKGROUND
This study was to evaluate whether anergic cells induced by the blockade of CD40-CD154 and CD28-B7 costimulatory pathways can act as potent immunoregulatory cells in vitro and prolong cardiac allograft survival after adoptive transfer.
METHODS
Anergic cells were induced in vitro by the addition of anti-CD154 and anti-CD80 monoclonal antibodies (mAbs) to primary MLR (mixed lymphocyte reaction) consisting of BALB/c as responder and C3H as stimulator. Anergic cells were added to a newly formed MLR in assessing the regulatory capacity and antigen specificity of anergic cells. The ability of anergic cells to respond to antigen and/or exogenous recombinant mouse interleukin-2 (rmIL-2) was tested. For in vivo studies, anergic cells were intravenously injected into 3.0-Gy gamma-irradiated BALB/c mice immediately after heterotopic abdominal cardiac transplantation. To prolong allograft survival, recipient mice injected with anergic cells received rapamycin therapy [1 mg.day(-1).kg(-1)].
RESULTS
Anergic cells strongly suppressed the proliferation of naicaron;ve BALB/c splenocytes against the original (C3H) stimulator in a dose-dependent manner, but they failed to suppress the proliferation of naicaron;ve BALB/c splenocytes against the third-party (C57BL/6J) stimulator. The anergic state was reversed by both original (C3H) stimulator and additional exogenous IL-2. In in vivo studies, untreated irradiated BALB/c mice rejected C3H cardiac allografts with a mean survival time of (8.6 +/- 1.1) days, whereas those injected with the anergic cells rejected the allografts with a mean survival time of (11.8 +/- 1.9) days, which was slightly longer than that of the untreated mice. The protocol based on anergic cells injection plus rapamycin therapy could prolong allograft survival significantly [(29.6 +/- 4.4) days].
CONCLUSIONS
Anergic cells induced by the blockade of CD40-CD154 and CD28-B7 costimulatory pathways can act as potent immunoregulatory cells in vitro, and prolong cardiac allograft survival after adoptive transfer in the presence of rapamycin therapy. This procedure might be clinically useful for prolonging allograft survival if optimal protocols are developed.
背景
本研究旨在评估通过阻断CD40 - CD154和CD28 - B7共刺激途径诱导产生的无反应性细胞在体外是否可作为有效的免疫调节细胞,并在过继转移后延长心脏移植的存活时间。
方法
在以BALB/c为反应细胞、C3H为刺激细胞的初次混合淋巴细胞反应(MLR)中加入抗CD154和抗CD80单克隆抗体(mAb),体外诱导产生无反应性细胞。将无反应性细胞加入新形成的MLR中,评估无反应性细胞的调节能力和抗原特异性。检测无反应性细胞对抗原和/或外源性重组小鼠白细胞介素-2(rmIL - 2)的反应能力。在体内研究中,异位腹部心脏移植后立即将无反应性细胞静脉注射到经3.0 Gyγ射线照射的BALB/c小鼠体内。为延长移植存活时间,注射无反应性细胞的受体小鼠接受雷帕霉素治疗[1 mg·day⁻¹·kg⁻¹]。
结果
无反应性细胞以剂量依赖方式强烈抑制未致敏BALB/c脾细胞针对原始(C3H)刺激细胞的增殖,但未能抑制未致敏BALB/c脾细胞针对第三方(C57BL/6J)刺激细胞的增殖。原始(C3H)刺激细胞和额外的外源性白细胞介素-2均可逆转无反应状态。在体内研究中,未经治疗的受照射BALB/c小鼠排斥C3H心脏移植,平均存活时间为(8.6±1.1)天,而注射无反应性细胞的小鼠排斥移植的平均存活时间为(11.8±1.9)天,略长于未治疗小鼠。基于注射无反应性细胞加雷帕霉素治疗的方案可显著延长移植存活时间[(29.6±4.4)天]。
结论
通过阻断CD40 - CD154和CD28 - B7共刺激途径诱导产生的无反应性细胞在体外可作为有效的免疫调节细胞,并在雷帕霉素治疗存在的情况下过继转移后延长心脏移植的存活时间。如果制定出最佳方案,该方法可能在临床上对延长移植存活时间有用。
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