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8 results on '"Ed Yaworski"'

2. Rational design of cationic lipids for siRNA delivery

Author

Ammen P. Sandhu, Scott A Barros, William Cantley, Ying K. Tam, Masuna Srinivasulu, Verbena Kosovrasti, Akin Akinc, Kieu Lam, Kallanthottathil G. Rajeev, Marco A. Ciufolini, Dinah W.Y. Sah, Soma De, Lloyd Jeffs, Ismail M. Hafez, Qingmin Chen, Thomas D. Madden, Antonin de Fougerolles, Ed Yaworski, June Qin, Mark A Tracy, Pieter R. Cullis, Barbara L. Mui, Jianxin Chen, Michael J. Hope, Martin Maier, Sandra K. Klimuk, Rene Alvarez, Connie K Cho, Michael J Weinstein, Muthiah Manoharan, Kim F. Wong, Mikameh Kazem, Derrick Stebbing, Merete L. Eisenhardt, Ian MacLachlan, Lubomir Nechev, Erin J Crosley, Muthusamy Jayaraman, J. Robert Dorkin, Sean C. Semple, and Todd Borland

Subjects
Drug Carriers, Small interfering RNA, Drug Compounding, Stable nucleic acid lipid particle, Biomedical Engineering, Rational design, Cationic polymerization, RNA, Bioengineering, Biology, Pharmacology, Transfection, Lipids, Applied Microbiology and Biotechnology, Biochemistry, In vivo, Cations, Drug Design, Nucleic acid, Molecular Medicine, Gene silencing, lipids (amino acids, peptides, and proteins), RNA, Small Interfering, Biotechnology
Abstract

We adopted a rational approach to design cationic lipids for use in formulations to deliver small interfering RNA (siRNA). Starting with the ionizable cationic lipid 1,2-dilinoleyloxy-3-dimethylaminopropane (DLinDMA), a key lipid component of stable nucleic acid lipid particles (SNALP) as a benchmark, we used the proposed in vivo mechanism of action of ionizable cationic lipids to guide the design of DLinDMA-based lipids with superior delivery capacity. The best-performing lipid recovered after screening (DLin-KC2-DMA) was formulated and characterized in SNALP and demonstrated to have in vivo activity at siRNA doses as low as 0.01 mg/kg in rodents and 0.1 mg/kg in nonhuman primates. To our knowledge, this represents a substantial improvement over previous reports of in vivo endogenous hepatic gene silencing.

Published
2010
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3. 2′-O-methyl-modified RNAs Act as TLR7 Antagonists

Author

Kevin McClintock, Ian MacLachlan, Marjorie Robbins, Ed Yaworski, Adam Judge, and Lisa Liang

Subjects
Small interfering RNA, medicine.medical_treatment, Biology, Mice, DNA-directed RNA interference, Drug Discovery, otorhinolaryngologic diseases, medicine, Genetics, Animals, Humans, Gene silencing, RNA, Small Interfering, Receptor, Molecular Biology, Cells, Cultured, Pharmacology, Mice, Inbred BALB C, Guanosine, Interferon-alpha, RNA, TLR7, Molecular biology, RNA silencing, Cytokine, Toll-Like Receptor 7, Injections, Intravenous, Leukocytes, Mononuclear, Cytokines, Molecular Medicine, Female, Immunosuppressive Agents
Abstract

RNA molecules such as single-stranded RNA (ssRNA) and small interfering RNA (siRNA) duplexes induce Toll-like receptor (TLR)-mediated immune stimulation after intracellular delivery. We have previously shown that selective incorporation of 2'-O-methyl (2'OMe) residues into siRNA abrogates cytokine production without reduction of gene silencing activity. Here we show that 2'OMe-modified RNA acts as a potent inhibitor of RNA-mediated cytokine induction in both human and murine systems. This activity does not require the direct incorporation of 2'OMe nucleotides into the immunostimulatory RNA or that the 2'OMe nucleotide-containing RNA be annealed as a complementary strand to form a duplex. Our results indicate that 2'OMe RNA acts as a potent antagonist of immunostimulatory RNA. We further show that 2'OMe RNA is able significantly to reduce both interferon-alpha (IFN-alpha) and interleukin-6 (IL-6) induction by the small-molecule TLR7 agonist loxoribine in human peripheral blood mononuclear cells (human PBMCs), in murine Flt3L dendritic cells (Flt3L DCs), and in vivo in mice. These results indicate that 2'OMe-modified RNA may have utility as an inhibitor of TLR7 with potential applications in the treatment of inflammatory and autoimmune diseases that involve TLR7-mediated immune stimulation.

Published
2007
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4. RNAi-mediated gene silencing in non-human primates

Author

Ivanka Toudjarska, Jürgen Soutschek, Vandana Sood, Kevin McClintock, Akin Akinc, Birgit Bramlage, Matthew N. Fedoruk, Timothy Racie, Adam Judge, Ian MacLachlan, Hans-Peter Vornlocher, Lorne R. Palmer, Lloyd Jeffs, Kieu Lam, Sumi Shanmugam, William Zedalis, Tracy Zimmermann, Ingo Röhl, Matthias John, Ed Yaworski, Jens Harborth, Amy C.H. Lee, Muthiah Manoharan, Stephan Seiffert, James Heyes, David Bumcrot, Amanda J. Wheat, Victor Koteliansky, and Lubomir Nechev

Subjects
Primates, Small interfering RNA, Multidisciplinary, MRNA cleavage, Stable nucleic acid lipid particle, RNA, Pharmacology, Biology, Molecular biology, RNAi Therapeutics, RNA silencing, Phenotype, RNA interference, Animals, Gene silencing, RNA Interference, RNA, Messenger, RNA, Small Interfering, Apolipoproteins B
Abstract

The opportunity to harness the RNA interference (RNAi) pathway to silence disease-causing genes holds great promise for the development of therapeutics directed against targets that are otherwise not addressable with current medicines. Although there are numerous examples of in vivo silencing of target genes after local delivery of small interfering RNAs (siRNAs), there remain only a few reports of RNAi-mediated silencing in response to systemic delivery of siRNA, and there are no reports of systemic efficacy in non-rodent species. Here we show that siRNAs, when delivered systemically in a liposomal formulation, can silence the disease target apolipoprotein B (ApoB) in non-human primates. APOB-specific siRNAs were encapsulated in stable nucleic acid lipid particles (SNALP) and administered by intravenous injection to cynomolgus monkeys at doses of 1 or 2.5 mg kg(-1). A single siRNA injection resulted in dose-dependent silencing of APOB messenger RNA expression in the liver 48 h after administration, with maximal silencing of >90%. This silencing effect occurred as a result of APOB mRNA cleavage at precisely the site predicted for the RNAi mechanism. Significant reductions in ApoB protein, serum cholesterol and low-density lipoprotein levels were observed as early as 24 h after treatment and lasted for 11 days at the highest siRNA dose, thus demonstrating an immediate, potent and lasting biological effect of siRNA treatment. Our findings show clinically relevant RNAi-mediated gene silencing in non-human primates, supporting RNAi therapeutics as a potential new class of drugs.

Published
2006
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5. Misinterpreting the therapeutic effects of small interfering RNA caused by immune stimulation

Author

Kevin McClintock, Catherine Choi, Lorne R. Palmer, Adam Judge, Ellen Grace Ambegia, Ian MacLachlan, Marjorie Robbins, and Ed Yaworski

Subjects
Small interfering RNA, Genetic enhancement, Green Fluorescent Proteins, Biology, Cell Line, Mice, Immune system, Dogs, RNA interference, Interferon, Influenza, Human, Genetics, medicine, Gene silencing, Animals, Humans, RNA, Small Interfering, Molecular Biology, Mice, Inbred BALB C, Innate immune system, RNA, Genetic Therapy, Disease Models, Animal, Influenza A virus, Immunology, Cancer research, Molecular Medicine, medicine.drug
Abstract

Activation of innate immunity has direct effects in modulating viral replication, tumor growth, angiogenesis, and inflammatory and other immunological processes. It is now established that unmodified siRNA can activate this innate immune response and therefore there is real potential for siRNA to elicit nonspecific therapeutic effects in a wide range of disease models. Here we demonstrate that in a murine model of influenza infection, the antiviral activity of siRNA is due primarily to immune stimulation elicited by the active siRNA duplexes and is not the result of therapeutic RNA interference (RNAi) as previously reported. We show that the misinterpretation stems from the use of a particular control green fluorescent protein (GFP) siRNA that we identify as having unusually low immunostimulatory activity compared with the active anti-influenza siRNA. Curiously, this GFP siRNA has served as a negative control for a surprising number of groups reporting therapeutic effects of siRNA. The inert immunologic profile of the GFP sequence was unique among a broad panel of published siRNAs, all of which could elicit significant interferon induction from primary immune cells. This panel included eight active siRNAs against viral, angiogenic, and oncologic targets, the reported therapeutic efficacy of which was based on comparison with the nonimmunostimulatory GFP siRNA. These results emphasize the need for researchers to anticipate, monitor, and adequately control for siRNA-mediated immune stimulation and calls into question the interpretation of numerous published reports of therapeutic RNAi in vivo. The use of chemically modified siRNA with minimal immunostimulatory capacity will help to delineate more accurately the mechanism of action underlying such studies.

Published
2008

6. Abstract B204: Development of ALN-VSP: An RNAi therapeutic for liver malignancies

Author

Timothy Racie, Tim Buck, Adam Judge, Lloyd Jeffs, David Bumcrot, Susan de Jong, Ian MacLachlan, Akin Akinc, Kevin McClintock, Joshua Brodsky, Dinah W.Y. Sah, Ed Yaworski, Ellen Grace Ambegia, Jared Gollob, and Ivanka Toudjarska

Subjects
Cancer Research, Small interfering RNA, Liver tumor, business.industry, Stable nucleic acid lipid particle, Cancer, Pharmacology, medicine.disease, Oncology, In vivo, Hepatocellular carcinoma, medicine, Systemic administration, Gene silencing, business
Abstract

Malignancies of the liver, including primary (hepatocellular carcinoma) and secondary (metastatic) tumors, represent a significant unmet medical need. We are developing a therapeutic for solid tumors involving the liver that is comprised of lipid particle-formulated small interfering RNAs (siRNAs) targeting VEGF and the mitotic kinesin, KSP (Eg5). For each target, potent siRNA duplexes were selected following extensive screening in tissue culture cells. To assess efficacy in vivo, a stable nucleic acid lipid particle (SNALP) formulation was developed based on similar formulations previously shown to silence liver-expressed genes via systemic administration in multiple species. A SNALP-formulated combination of the KSP and VEGF siRNAs (referred to as ALN-VSP) was tested in orthotopic liver tumor models in which human tumor cells are implanted directly into the livers of immunocompromised mice. We show that intravenous administration of ALN-VSP leads to silencing of both KSP and VEGF expression in established liver tumors. This is accompanied by the formation of numerous aberrant mitotic figures (“monoasters”) in tumor cells indicative of the pharmacologic inhibition of KSP. In addition, we demonstrate that ALN-VSP treatment provides a clear survival benefit even when treatment is initiated in animals with a significant tumor burden. A Phase 1 clinical trial of ALN-VSP has recently been initiated. Citation Information: Mol Cancer Ther 2009;8(12 Suppl):B204.

Published
2009
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