Jeffrey W.-D. Foy scite author profile

This white paper, which is the 10th in a series intended to address issues associated with the development of therapeutic oligonucleotides, examines the subject of product-related impurities. The authors consider chemistry and safety aspects and advance arguments in favor of platform approaches to impurity identification and qualification. Reporting, identification, and qualification thresholds suitable for product-related impurities of therapeutic oligonucleotides are proposed.

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Toxicological and Pharmacokinetic Properties of Chemically Modified siRNAs Targeting p53 RNA Following Intravenous Administration

Thompson

Kornbrust

Foy

et al. 2012

Nucleic Acid Therapeutics

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We report the toxicological and pharmacokinetic properties of the synthetic, small interfering RNA I5NP following intravenous administration in rodents and nonhuman primates. I5NP is designed to act via the RNA interference (RNAi) pathway to temporarily inhibit expression of the pro-apoptotic protein p53 and is being developed to protect cells from acute ischemia/reperfusion injuries such as acute kidney injury that can occur during major cardiac surgery and delayed graft function that can occur following renal transplantation. Following intravenous administration, I5NP was very rapidly cleared from plasma was distributed predominantly to the kidney, with very low levels in liver and other tissues. Doses of 800 mg/kg I5NP in rodents, and 1,000 mg/kg I5NP in nonhuman primates, were required to elicit adverse effects, which in the monkey were isolated to direct effects on the blood that included a sub-clinical activation of complement and slightly increased clotting times. In the rat, no additional adverse effects were observed with a rat analogue of I5NP, indicating that the effects likely represent class effects of synthetic RNA duplexes rather than toxicity related to the intended pharmacologic activity of I5NP. Taken together, these data support clinical testing of intravenous administration of I5NP for the preservation of renal function following acute ischemia/reperfusion injury.

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Toxicological and Pharmacokinetic Properties of QPI-1007, a Chemically Modified Synthetic siRNA Targeting Caspase 2 mRNA, Following Intravitreal Injection

Solano

Kornbrust

Beaudry

et al. 2014

Nucleic Acid Therapeutics

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We report the toxicological and pharmacokinetic properties of the synthetic, small interfering RNA (siRNA), QPI-1007, following intravitreal administration. QPI-1007 is a chemically modified siRNA designed to act via the RNA interference (RNAi) pathway to temporarily inhibit expression of the caspase 2 protein and is being developed as a neuroprotectant for the treatment of nonarteritic anterior ischemic optic neuropathy and other optic neuropathies such as glaucoma that result in the death of retinal ganglion cells. The half-life of QPI-1007 in the vitreous and retina/choroid in the Dutch Belted rabbit was about 2 days, and there was no sign of accumulation after repeated administrations at either 2- or 4-week dosing intervals in the rabbit. QPI-1007 was well tolerated in Dutch Belted rabbits following single or repeated intravitreal administrations of up to 11 doses over 9 months. Test-article-related effects were limited to the eyes, with minimal to mild vitreal cellular infiltration being the major finding, which was reversible. In repeated-dose studies, a modest reduction in B-wave amplitude obtained by electroretinography was observed in animals treated with the highest dose level tested (3 mg, which is equivalent to a 12 mg/eye human dose) that was not considered to be clinically meaningful. Administration in the rat of either a single bolus intravenous (i.v.) injection of 100 mg/kg or daily bolus i.v. injections of 75 mg/kg/day for 28 days failed to elicit any macroscopic or microscopic changes, suggesting a low risk for systemic toxicity. QPI-1007 was negative in three genetic toxicity studies. Overall, the nonclinical studies support the further development of QPI-1007.

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Oligo Safety Working Group Exaggerated Pharmacology Subcommittee Consensus Document

Kornbrust

Cavagnaro

Levin

et al. 2013

Nucleic Acid Therapeutics

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This document summarizes the current consensus opinion of the Exaggerated Pharmacology (EP) Subcommittee of the Oligonucleotide Safety Working Group on the appropriate strategies to assess potential adverse effects caused by an "exaggerated" degree of the intended pharmacologic activity of an oligonucleotide (ON). The Subcommittee focused its discussions primarily on the ON subclasses that impact expression of "host" (i.e., human gene products--antisense, small interfering RNAs, and related ONs that target messenger RNA), with later and more limited discussions on aptamer, immunostimulatory, and microRNA subclasses. It is expected that many of these principles will be relevant to other subclasses but will need to be carefully considered as those development programs advance towards clinical trials. The recommendations may also serve as a frame of reference when designing Good Laboratory Practice safety studies with ONs, with regard to the study design elements that address assessment of EP. It is also hoped that these recommendations will establish a foundation for discussion with regulatory agencies on this subject.

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Local Tolerance and Systemic Safety of Pegaptanib Sodium in the Dog and Rabbit

Foy¹,

Rittenhouse

Modi³

et al. 2007

Journal of Ocular Pharmacology and Therapeutics

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Jeffrey W.-D. Foy

Impurities in Oligonucleotide Drug Substances and Drug Products

Toxicological and Pharmacokinetic Properties of Chemically Modified siRNAs Targeting p53 RNA Following Intravenous Administration

Toxicological and Pharmacokinetic Properties of QPI-1007, a Chemically Modified Synthetic siRNA Targeting Caspase 2 mRNA, Following Intravitreal Injection

Oligo Safety Working Group Exaggerated Pharmacology Subcommittee Consensus Document

Local Tolerance and Systemic Safety of Pegaptanib Sodium in the Dog and Rabbit

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