Di Martino Maria Teresa, Gullà Annamaria, Cantafio Maria Eugenia Gallo, Lionetti Marta, Leone Emanuela, Amodio Nicola, Guzzi Pietro Hiram, Foresta Umberto, Conforti Francesco, Cannataro Mario, Neri Antonino, Giordano Antonio, Tagliaferri Pierosandro, Tassone Pierfrancesco
Department of Experimental and Clinical Medicine, Magna Graecia University, Catanzaro, Italy.
Oncotarget. 2013 Feb;4(2):242-55. doi: 10.18632/oncotarget.820.
A rising body of evidence suggests that silencing microRNAs (miRNAs) with oncogenic potential may represent a successful therapeutic strategy for human cancer. We investigated the therapeutic activity of miR-221/222 inhibitors against human multiple myeloma (MM) cells. Enforced expression of miR-221/222 inhibitors triggered in vitro anti-proliferative effects and up-regulation of canonic miR-221/222 targets, including p27Kip1, PUMA, PTEN and p57Kip2, in MM cells highly expressing miR-221/222. Conversely, transfection of miR-221/222 mimics increased S-phase and down-regulated p27Kip1 protein expression in MM with low basal miR-221/222 levels. The effects of miR-221/222 inhibitors was also evaluated in MM xenografts in SCID/ NOD mice. Significant anti-tumor activity was achieved in xenografted mice by the treatment with miR-221/222 inhibitors, together with up-regulation of canonic protein targets in tumors retrieved from animals. These findings provide proof of principle that silencing the miR-221/222 cluster exerts significant therapeutic activity in MM cells with high miR-221/222 level of expression, which mostly occurs in TC2 and TC4 MM groups. These findings suggest that MM genotyping may predict the therapeutic response. All together our results support a framework for clinical development of miR-221/222 inhibitors-based therapeutic strategy in this still incurable disease.
越来越多的证据表明,沉默具有致癌潜力的微小RNA(miRNA)可能是治疗人类癌症的一种成功策略。我们研究了miR-221/222抑制剂对人多发性骨髓瘤(MM)细胞的治疗活性。在高表达miR-221/222的MM细胞中,强制表达miR-221/222抑制剂可引发体外抗增殖作用,并上调包括p27Kip1、PUMA、PTEN和p57Kip2在内的典型miR-221/222靶标。相反,转染miR-221/222模拟物可增加基础miR-221/222水平较低的MM细胞的S期,并下调p27Kip1蛋白表达。我们还在SCID/NOD小鼠的MM异种移植模型中评估了miR-221/222抑制剂的效果。用miR-221/222抑制剂治疗异种移植小鼠可实现显著的抗肿瘤活性,同时上调从动物体内获取的肿瘤中典型蛋白靶标的表达。这些发现证明了一个原理,即沉默miR-221/222簇在高表达miR-221/222的MM细胞中具有显著的治疗活性,这种情况大多发生在TC2和TC4 MM组中。这些发现表明MM基因分型可能预测治疗反应。我们所有的结果共同支持了在这种仍然无法治愈的疾病中基于miR-221/222抑制剂的治疗策略的临床开发框架。
