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Spherical Nucleic Acid Nanoparticle Conjugates as an RNAi-Based Therapy for Glioblastoma

RNA干扰 癌症研究 胶质瘤 基因沉默 小干扰RNA 癌基因 细胞凋亡 效应器 靶向治疗 核糖核酸 转染 医学 生物 癌症 免疫学 细胞培养 细胞周期 生物化学 内科学 基因 遗传学
作者
Samuel A. Jensen,Emily S. Day,Caroline H. Ko,Lisa Hurley,Janina P. Luciano,Fotini M. Kouri,Timothy J. Merkel,Andrea J. Luthi,Pinal C. Patel,Joshua I. Cutler,Weston L. Daniel,Alexander W. Scott,Matthew W. Rotz,Thomas J. Meade,David A. Giljohann,Chad A. Mirkin,Alexander H. Stegh
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:5 (209): 209ra152-209ra152 被引量:572
标识
DOI:10.1126/scitranslmed.3006839
摘要

Glioblastoma multiforme (GBM) is a neurologically debilitating disease that culminates in death 14 to 16 months after diagnosis. An incomplete understanding of how cataloged genetic aberrations promote therapy resistance, combined with ineffective drug delivery to the central nervous system, has rendered GBM incurable. Functional genomics efforts have implicated several oncogenes in GBM pathogenesis but have rarely led to the implementation of targeted therapies. This is partly because many "undruggable" oncogenes cannot be targeted by small molecules or antibodies. We preclinically evaluate an RNA interference (RNAi)-based nanomedicine platform, based on spherical nucleic acid (SNA) nanoparticle conjugates, to neutralize oncogene expression in GBM. SNAs consist of gold nanoparticles covalently functionalized with densely packed, highly oriented small interfering RNA duplexes. In the absence of auxiliary transfection strategies or chemical modifications, SNAs efficiently entered primary and transformed glial cells in vitro. In vivo, the SNAs penetrated the blood-brain barrier and blood-tumor barrier to disseminate throughout xenogeneic glioma explants. SNAs targeting the oncoprotein Bcl2Like12 (Bcl2L12)--an effector caspase and p53 inhibitor overexpressed in GBM relative to normal brain and low-grade astrocytomas--were effective in knocking down endogenous Bcl2L12 mRNA and protein levels, and sensitized glioma cells toward therapy-induced apoptosis by enhancing effector caspase and p53 activity. Further, systemically delivered SNAs reduced Bcl2L12 expression in intracerebral GBM, increased intratumoral apoptosis, and reduced tumor burden and progression in xenografted mice, without adverse side effects. Thus, silencing antiapoptotic signaling using SNAs represents a new approach for systemic RNAi therapy for GBM and possibly other lethal malignancies.
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