Institute for Clinical Neuroimmunology, Ludwig Maximilians University, Munich, Germany.
Brain. 2009 Dec;132(Pt 12):3342-52. doi: 10.1093/brain/awp300.
We established microRNA profiles from active and inactive multiple sclerosis lesions. Using laser capture microdissection from multiple sclerosis lesions to pool single cells and in vitro cultures, we assigned differentially expressed microRNA to specific cell types. Astrocytes contained all 10 microRNA that were most strongly upregulated in active multiple sclerosis lesions, including microRNA-155, which is known to modulate immune responses in different ways but so far had not been assigned to central nervous system resident cells. MicroRNA-155 was expressed in human astrocytes in situ, and further induced with cytokines in human astrocytes in vitro. This was confirmed with astrocyte cultures from microRNA-155-|-lacZ mice. We matched microRNA upregulated in phagocytically active multiple sclerosis lesions with downregulated protein coding transcripts. This converged on CD47, which functions as a 'don't eat me' signal inhibiting macrophage activity. Three microRNA upregulated in active multiple sclerosis lesions (microRNA-34a, microRNA-155 and microRNA-326) targeted the 3'-untranslated region of CD47 in reporter assays, with microRNA-155 even at two distinct sites. Our findings suggest that microRNA dysregulated in multiple sclerosis lesions reduce CD47 in brain resident cells, releasing macrophages from inhibitory control, thereby promoting phagocytosis of myelin. This mechanism may have broad implications for microRNA-regulated macrophage activation in inflammatory diseases.
我们建立了活跃和不活跃的多发性硬化病变的 microRNA 图谱。使用来自多发性硬化病变的激光捕获显微解剖来汇集单细胞和体外培养物,我们将差异表达的 microRNA 分配给特定的细胞类型。星形胶质细胞包含在活跃的多发性硬化病变中上调最明显的 10 种 microRNA,包括 microRNA-155,其已知以不同方式调节免疫反应,但迄今为止尚未被分配给中枢神经系统常驻细胞。microRNA-155 在原位的人类星形胶质细胞中表达,并在体外的人类星形胶质细胞中进一步用细胞因子诱导。这在 microRNA-155-|-lacZ 小鼠的星形胶质细胞培养物中得到了证实。我们将吞噬活跃的多发性硬化病变中上调的 microRNA 与下调的蛋白质编码转录物相匹配。这集中在 CD47 上,CD47 作为一种“不要吃我”信号抑制巨噬细胞活性。在活跃的多发性硬化病变中上调的三种 microRNA(microRNA-34a、microRNA-155 和 microRNA-326)在报告基因检测中靶向 CD47 的 3'-非翻译区,而 microRNA-155 甚至在两个不同的位点。我们的发现表明,多发性硬化病变中失调的 microRNA 降低了脑驻留细胞中的 CD47,使巨噬细胞摆脱抑制性控制,从而促进髓鞘的吞噬作用。这种机制可能对炎症性疾病中 microRNA 调节的巨噬细胞激活具有广泛的意义。
