Ronchetti S, Nocentini G, Giunchi L, Bartoli A, Moraca R, Riccardi C, Migliorati G
Department of Clinical Medicine, Pathology and Pharmacology (DMCPF), Perugia University Medical School, Italy.
Cell Immunol. 1997 Jun 15;178(2):124-31. doi: 10.1006/cimm.1997.1131.
Glucocorticoids (GCH) are highly effective agents in controlling inflammation and immune response. We studied the effect of the synthetic GCH dexamethasone (DEX) on the expression of TCR zeta gene splicings that code for some chains belonging to the T-cell receptor (TCR)/CD3 complex. In the DEX-treated hybridoma T-cell line 3DO, TCR zeta gene splicings increase within the first 24 hr (about fourfold increase), as demonstrated by reverse transcriptase-polymerase chain reaction and RNase protection assay. This increase is due to the stimulation of TCR zeta gene locus transcription, as demonstrated by the "run-on" assay. A similar upregulation was observed in murine thymocytes following in vivo DEX treatment. As a consequence of TCR zeta gene locus modulation, the expression of the spliced mRNAs coding for TCR zeta and TCR eta subunits is increased, whereas their relative ratio is only slightly changed. Indeed, the amount of TCR zeta protein in 24-hr DEX-treated cells is fivefold more than that in the untreated cells. A similar effect was seen in 3DO cells treated with hydrocortisone but not in those treated with testosterone. TCR zeta protein increase was confined to the cytoplasm and therefore TCR/CD3 complex expression did not increase. This newly described effect of DEX may constitute an additional molecular mechanism that contributes to its immunomodulating activity.
糖皮质激素(GCH)是控制炎症和免疫反应的高效药物。我们研究了合成糖皮质激素地塞米松(DEX)对T细胞受体(TCR)/CD3复合物某些链编码的TCRζ基因剪接表达的影响。在DEX处理的杂交瘤T细胞系3DO中,逆转录聚合酶链反应和核糖核酸酶保护试验表明,TCRζ基因剪接在最初24小时内增加(约增加四倍)。“核连缀”试验表明,这种增加是由于TCRζ基因座转录受到刺激。在体内DEX处理后的小鼠胸腺细胞中也观察到类似的上调。由于TCRζ基因座的调节,编码TCRζ和TCRη亚基的剪接mRNA的表达增加,而它们的相对比例仅略有变化。事实上,在经DEX处理24小时的细胞中,TCRζ蛋白的量是未处理细胞中的五倍。在用氢化可的松处理的3DO细胞中也观察到类似的效果,但在用睾酮处理的细胞中未观察到。TCRζ蛋白的增加局限于细胞质,因此TCR/CD3复合物的表达没有增加。DEX这种新描述的作用可能构成其免疫调节活性的另一种分子机制。
