Multiple Sclerosis Center, Neurogenomics Laboratory, Sheba Medical Center, Tel-Hashomer, Israel; Sackler School of Medicine, Tel-Aviv University, Israel.
J Neuroimmunol. 2013 Oct 15;263(1-2):91-7. doi: 10.1016/j.jneuroim.2013.08.002. Epub 2013 Aug 15.
Applying high throughput gene expression microarrays we identified that the suppression of polymerase 1 (POL1) pathway is associated with benign course of multiple sclerosis (MS). This finding supports the rationale for direct targeting of the POL1 transcription machinery as an innovative strategy to suppress MS. To evaluate the effects of a specific polymerase I inhibitor (POL1-I) on experimental autoimmune encephalomyelitis (EAE), we immunized female C57BL/6J mice (8 weeks) with MOG35-55/CFA. A new POL1-I was administered at a daily dose of 12.5mg/kg body weight by oral gavage either from the day of immunization until disease onset (EAE score 1.0, immunization model), at disease onset (EAE score=1.0) for the following 14 days (treatment model), or by alternate daily dose of 25.0mg/kg body weight, by oral gavage from the day of immunization for the following 25 days (combined model). POL1-I remarkably suppressed EAE in the immunization model; while in the Vehicle group the onset of EAE occurred on day 10.0±0.4 with maximal clinical score of 3.2±0.2, in the POL1-I treated mice onset was significantly delayed and occurred on day 16.9±1.1 (p=0.001), and maximal disease score 2.0±0.1 was reduced (p=0.004). In the treatment model POL1-I treatment significantly reduced disease activity; maximal score was 2.0±0.5 while in the Vehicle group it reached a mean maximal score of 3.9±0.1, (p=0.0008). In the combined model, POL1-I treatment completely inhibited disease activity. The effect of POL1-I treatment was modulated through decreased expression of POL1 pathway key-related genes LRPPRC, pre-RNA, POLR1D and RRN3 together with activation of P53 dependent apoptosis of CD4+ splenocytes. Our findings demonstrate that POL1 pathway inhibition delayed and suppressed the development of EAE and ameliorated the disease in mice with persistent clinical signs.
应用高通量基因表达微阵列,我们发现聚合酶 1(POL1)途径的抑制与多发性硬化症(MS)的良性病程有关。这一发现支持了直接靶向 POL1 转录机制作为抑制 MS 的创新策略的合理性。为了评估一种特定的聚合酶 I 抑制剂(POL1-I)对实验性自身免疫性脑脊髓炎(EAE)的影响,我们用 MOG35-55/CFA 免疫雌性 C57BL/6J 小鼠(8 周龄)。一种新的 POL1-I 以每天 12.5mg/kg 体重的剂量通过口服灌胃给药,从免疫之日起至疾病发作(EAE 评分 1.0,免疫模型),或在疾病发作时(EAE 评分=1.0),持续 14 天(治疗模型),或通过口服灌胃给予交替的每日 25.0mg/kg 体重的剂量,从免疫之日起持续 25 天(联合模型)。POL1-I 显著抑制免疫模型中的 EAE;而在载体组中,EAE 于第 10.0±0.4 天发生,最大临床评分 3.2±0.2,在 POL1-I 治疗的小鼠中,发病明显延迟,于第 16.9±1.1 天发生(p=0.001),最大疾病评分 2.0±0.1 降低(p=0.004)。在治疗模型中,POL1-I 治疗显著降低疾病活动度;最大评分 2.0±0.5,而在载体组中,最大评分达到 3.9±0.1,(p=0.0008)。在联合模型中,POL1-I 治疗完全抑制了疾病活动。POL1-I 治疗的效果通过降低 POL1 途径关键相关基因 LRPPRC、前 RNA、POLR1D 和 RRN3 的表达以及激活 CD4+脾细胞的 P53 依赖性凋亡来调节。我们的研究结果表明,POL1 途径的抑制延迟和抑制了 EAE 的发展,并改善了具有持续临床症状的小鼠的疾病。
