Kudinov Alexander E, Karanicolas John, Golemis Erica A, Boumber Yanis
Program in Molecular Therapeutics, Fox Chase Cancer Center, Philadelphia, Pennsylvania.
Department of Hematology/Oncology, Fox Chase Cancer Center, Philadelphia, Pennsylvania.
Clin Cancer Res. 2017 May 1;23(9):2143-2153. doi: 10.1158/1078-0432.CCR-16-2728. Epub 2017 Jan 31.
Aberrant gene expression that drives human cancer can arise from epigenetic dysregulation. Although much attention has focused on altered activity of transcription factors and chromatin-modulating proteins, proteins that act posttranscriptionally can potently affect expression of oncogenic signaling proteins. The RNA-binding proteins (RBP) Musashi-1 (MSI1) and Musashi-2 (MSI2) are emerging as regulators of multiple critical biological processes relevant to cancer initiation, progression, and drug resistance. Following identification of Musashi as a regulator of progenitor cell identity in , the human Musashi proteins were initially linked to control of maintenance of hematopoietic stem cells, then stem cell compartments for additional cell types. More recently, the Musashi proteins were found to be overexpressed and prognostic of outcome in numerous cancer types, including colorectal, lung, and pancreatic cancers; glioblastoma; and several leukemias. MSI1 and MSI2 bind and regulate the mRNA stability and translation of proteins operating in essential oncogenic signaling pathways, including NUMB/Notch, PTEN/mTOR, TGFβ/SMAD3, MYC, cMET, and others. On the basis of these activities, MSI proteins maintain cancer stem cell populations and regulate cancer invasion, metastasis, and development of more aggressive cancer phenotypes, including drug resistance. Although RBPs are viewed as difficult therapeutic targets, initial efforts to develop MSI-specific inhibitors are promising, and RNA interference-based approaches to inhibiting these proteins have had promising outcomes in preclinical studies. In the interim, understanding the function of these translational regulators may yield insight into the relationship between mRNA expression and protein expression in tumors, guiding tumor-profiling analysis. This review provides a current overview of Musashi as a cancer driver and novel therapeutic target. .
驱动人类癌症的异常基因表达可能源于表观遗传失调。尽管人们大多关注转录因子和染色质调节蛋白活性的改变,但转录后发挥作用的蛋白质也能有力地影响致癌信号蛋白的表达。RNA结合蛋白(RBP)Musashi-1(MSI1)和Musashi-2(MSI2)正逐渐成为与癌症起始、进展和耐药性相关的多个关键生物学过程的调节因子。在确定Musashi为祖细胞身份的调节因子后,人类Musashi蛋白最初与造血干细胞的维持控制相关联,随后又与其他细胞类型的干细胞区室相关。最近,人们发现Musashi蛋白在包括结直肠癌、肺癌和胰腺癌、胶质母细胞瘤以及几种白血病在内的多种癌症类型中过度表达且与预后相关。MSI1和MSI2结合并调节在关键致癌信号通路中发挥作用的蛋白质的mRNA稳定性和翻译,这些通路包括NUMB/Notch、PTEN/mTOR、TGFβ/SMAD3、MYC、cMET等。基于这些活性,MSI蛋白维持癌症干细胞群体,并调节癌症侵袭、转移以及更具侵袭性的癌症表型(包括耐药性)的发展。尽管RBP被视为难以靶向治疗的靶点,但开发MSI特异性抑制剂的初步努力很有前景,基于RNA干扰抑制这些蛋白的方法在临床前研究中也取得了有前景的结果。在此期间,了解这些翻译调节因子的功能可能有助于深入了解肿瘤中mRNA表达与蛋白质表达之间的关系,指导肿瘤分析。本综述提供了关于Musashi作为癌症驱动因子和新型治疗靶点的最新概述。