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Targeted fibrillar nanocarbon RNAi treatment of acute kidney injury

急性肾损伤 RNA干扰 小干扰RNA 药理学 医学 碳纳米管 癌症研究 细胞生物学 化学 内科学 纳米技术 生物 材料科学 基因 生物化学 核糖核酸
作者
Simone Alidori,Nima Akhavein,Daniel L.J. Thorek,Katja Behling,Yevgeniy Romin,Dawn Queen,Bradley J. Beattie,Katia Manova‐Todorova,Magnus Bergkvist,David A. Scheinberg,Michael R. McDevitt
出处
期刊:Science Translational Medicine [American Association for the Advancement of Science]
卷期号:8 (331): 331ra39-331ra39 被引量:127
标识
DOI:10.1126/scitranslmed.aac9647
摘要

RNA interference has tremendous yet unrealized potential to treat a wide range of illnesses. Innovative solutions are needed to protect and selectively deliver small interfering RNA (siRNA) cargo to and within a target cell to fully exploit siRNA as a therapeutic tool in vivo. Herein, we describe ammonium-functionalized carbon nanotube (fCNT)-mediated transport of siRNA selectively and with high efficiency to renal proximal tubule cells in animal models of acute kidney injury (AKI). fCNT enhanced siRNA delivery to tubule cells compared to siRNA alone and effectively knocked down the expression of several target genes, includingTrp53,Mep1b,Ctr1, andEGFP A clinically relevant cisplatin-induced murine model of AKI was used to evaluate the therapeutic potential of fCNT-targeted siRNA to effectively halt the pathogenesis of renal injury. Prophylactic treatment with a combination of fCNT/siMep1band fCNT/siTrp53significantly improved progression-free survival compared to controls via a mechanism that required concurrent reduction of meprin-1β and p53 expression. The fCNT/siRNA was well tolerated, and no toxicological consequences were observed in murine models. Toward clinical application of this platform, fCNTs were evaluated for the first time in nonhuman primates. The rapid and kidney-specific pharmacokinetic profile of fCNT in primates was comparable to what was observed in mice and suggests that this approach is amenable for use in humans. The nanocarbon-mediated delivery of siRNA provides a therapeutic means for the prevention of AKI to safely overcome the persistent barrier of nephrotoxicity during medical intervention.
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