Shalit M, Levi-Schaffer F
Department of Medicine, Hadassah University Hospital, Jerusalem, Israel.
Clin Exp Allergy. 1995 Sep;25(9):896-902. doi: 10.1111/j.1365-2222.1995.tb00033.x.
In vivo rush desensitization is a procedure widely employed to quickly desensitize allergic patients by administering increasing doses of the offending antigen at short intervals. The mechanism(s) underlying this process and the possible role of mast cells in it have not been well delineated.
To define an ex vivo model for rush desensitization utilizing the mast cell-fibroblast coculture system.
Rat peritoneal mast cells were cultured on 3T3 fibroblasts and were preincubated with saturating or suboptimal concentrations of IgE anti-DNP antibodies. Mast cells were then repeatedly challenged at 30 min intervals, with increasing amounts (0.001-100 ng/mL) of the antigen DNP-HSA, in the presence of calcium ions. Parallel control cultures were stimulated only once by each antigen concentration. In another set of experiments, mast cells were repeatedly activated with increasing concentrations (0.1-1000 ng/mL) of compound 48/80. Supernatants and cell sonicates were assessed for histamine content and the percentage of histamine released was calculated.
When saturating concentrations of IgE anti-DNP antibodies were used, mast cells challenged repeatedly with DNP-HSA did not release significant amounts of histamine up to an antigen concentration of 1 ng/mL. At this stage they were partially desensitized, releasing only 108.3 +/- 17.1 ng histamine/plate (7.9 +/- 0.8%). A marked desensitization was observed at optimal antigen concentration (100 ng/mL), where experimental mast cells released only 45.6 +/- 10.9 ng/plate, compared with 661.9 +/- 48.2 ng/plate in firstly challenged cultures. Desensitization was probably not due to mast cells histamine depletion, since the cells still contained large amounts of histamine (579.5 +/- 108.6 ng/plate) at the end of the procedure. A similar pattern of desensitization was observed when mast cells were preincubated with a suboptimal concentration of IgE antibodies. Activation of mast cells with increasing amounts of the IgE-independent secretagogue, compound 48/80, did not cause desensitization since at each concentration both repetitively challenged and control cultures released similar amounts of histamine. Furthermore, challenge of antigen-desensitized mast cells with compound 48/80 caused the release of 75.9 +/- 4.9% histamine comparable to the percentage of histamine released from controls (79.5 +/- 6.7).
Repeated exposure of mast cells to gradually increasing amounts of antigen induces their refractoriness. This observation would suggest a role for mast cells in rush desensitization procedure in vivo. Our coculture system may serve as a useful model for studying this process.
体内快速脱敏是一种广泛应用的程序,通过在短时间间隔内给予递增剂量的致敏抗原,快速使过敏患者脱敏。该过程的潜在机制以及肥大细胞在其中可能发挥的作用尚未完全阐明。
利用肥大细胞 - 成纤维细胞共培养系统定义一种用于快速脱敏的体外模型。
将大鼠腹膜肥大细胞培养于3T3成纤维细胞上,并用饱和或次优浓度的抗二硝基苯(DNP)IgE抗体进行预孵育。然后在钙离子存在的情况下,每隔30分钟用递增剂量(0.001 - 100 ng/mL)的抗原DNP - 人血清白蛋白(HSA)反复刺激肥大细胞。平行对照培养物仅用每种抗原浓度刺激一次。在另一组实验中,用递增浓度(0.1 - 1000 ng/mL)的化合物48/80反复激活肥大细胞。评估上清液和细胞超声裂解物中的组胺含量,并计算组胺释放百分比。
当使用饱和浓度的抗DNP IgE抗体时,用DNP - HSA反复刺激的肥大细胞在抗原浓度达到1 ng/mL之前不会释放大量组胺。在此阶段,它们部分脱敏,每孔仅释放108.3±17.1 ng组胺(7.9±0.8%)。在最佳抗原浓度(100 ng/mL)下观察到明显的脱敏,此时实验肥大细胞每孔仅释放45.6±10.9 ng,而初次刺激培养物中为661.9±48.2 ng/孔。脱敏可能不是由于肥大细胞组胺耗竭,因为在实验结束时细胞仍含有大量组胺(579.5±108.6 ng/孔)。当肥大细胞用次优浓度的IgE抗体预孵育时,观察到类似的脱敏模式。用递增剂量的非IgE依赖性促分泌剂化合物48/80激活肥大细胞不会导致脱敏,因为在每个浓度下,反复刺激的培养物和对照培养物释放的组胺量相似。此外,用化合物48/80刺激抗原脱敏的肥大细胞导致释放75.9±4.9%的组胺,与对照释放的组胺百分比(79.5±6.7)相当。
肥大细胞反复暴露于逐渐增加剂量的抗原会诱导其产生不应性。这一观察结果表明肥大细胞在体内快速脱敏过程中发挥作用。我们的共培养系统可能是研究这一过程的有用模型。
