Confirming the RNAi-mediated mechanism of action of siRNA-based cancer therapeutics in mice
Adam D. Judge, … , Kevin McClintock, Ian MacLachlan
Adam D. Judge, … , Kevin McClintock, Ian MacLachlan
Published February 23, 2009
Citation Information: J Clin Invest. 2009;119(3):661-673. https://doi.org/10.1172/JCI37515.
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Technical Advance

Confirming the RNAi-mediated mechanism of action of siRNA-based cancer therapeutics in mice

Abstract

siRNAs that specifically silence the expression of cancer-related genes offer a therapeutic approach in oncology. However, it remains critical to determine the true mechanism of their therapeutic effects. Here, we describe the preclinical development of chemically modified siRNA targeting the essential cell-cycle proteins polo-like kinase 1 (PLK1) and kinesin spindle protein (KSP) in mice. siRNA formulated in stable nucleic acid lipid particles (SNALP) displayed potent antitumor efficacy in both hepatic and subcutaneous tumor models. This was correlated with target gene silencing following a single intravenous administration that was sufficient to cause extensive mitotic disruption and tumor cell apoptosis. Our siRNA formulations induced no measurable immune response, minimizing the potential for nonspecific effects. Additionally, RNAi-specific mRNA cleavage products were found in tumor cells, and their presence correlated with the duration of target mRNA silencing. Histological biomarkers confirmed that RNAi-mediated gene silencing effectively inhibited the target’s biological activity. This report supports an RNAi-mediated mechanism of action for siRNA antitumor effects, suggesting a new methodology for targeting other key genes in cancer development with siRNA-based therapeutics.

Authors

Adam D. Judge, Marjorie Robbins, Iran Tavakoli, Jasna Levi, Lina Hu, Anna Fronda, Ellen Ambegia, Kevin McClintock, Ian MacLachlan

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Figure 9

Therapeutic activity of PLK1 SNALP containing either C14 or C18 PEG-lipids in s.c. tumors.

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Therapeutic activity of PLK1 SNALP containing either C14 or C18 PEG-lipi...
(A) Inhibition of s.c. tumor growth by alternate PLK1424-2/A SNALP formulations. Mice were administered PLK1424-2/A SNALP comprising either PEG-cDMA or PEG-cDSA (6 × 2 mg/kg i.v.) between day 10 and day 21 after Hep3B tumor seeding. Values show mean tumor volumes (mm3) ± SD (n = 5). Control was LUC-U/U siRNA SNALP (PEG-cDMA). (B) Corresponding hPLK1/hGAPDH mRNA ratio in s.c. Hep3B tumors following single administration (2 mg/kg) of PLK1424-2/A or LUC-U/U siRNA; mean + SD (n = 4). (C) Dose response of PLK1424-2/A PEG-cDSA SNALP in Hep3B tumors. Mice bearing established (~100 mm3) tumors were administered PLK1424-2/A PEG-cDSA SNALP (6 × 3, 6 × 1, or 6 × 0.5 mg/kg), LUC PEG-cDSA SNALP (6 × 3 mg/kg), or PBS vehicle every 2–3 days between days 18 and 29 after seeding. Values represent mean tumor volumes (mm3) (n = 5). Mean SNALP particle sizes were 81 (0.10 polydispersity), 71 (0.03 polydispersity), 82 (0.12 polydispersity), and 74 (0.05 polydispersity) nm for PLK1424-2/A PEG-cDMA, PEG-cDSA, LUC-U/U PEG-cDMA, and PEG-cDSA, respectively.