Publications by authors named "Sean Dennin"
Article Synopsis
- The study developed a reverse transcription quantitative polymerase chain reaction (RT-qPCR) method to accurately measure chemically modified small interfering RNA (siRNA), including thermally destabilizing modifications like glycol nucleic acid (GNA).
- RT-qPCR proved to be more sensitive and capable of higher throughput than mass spectrometry for siRNA detection, though mass spectrometry is preferred for specific metabolite detection due to its inefficacy with certain chemical modifications.
- Both RT-qPCR and mass spectrometry have unique advantages and disadvantages, so the choice of method should depend on factors like throughput, sensitivity, and the need for specific metabolite identification.
The electrophoretic mobility shift assay (EMSA) was evaluated as an alternative to ultrafiltration (UF) to assess plasma protein binding (PPB) of small interfering RNAs (siRNA) and antisense oligonucleotides (ASO). EMSA analysis showed that PPB depended on siRNA and plasma concentration. Conversely, when analyzed by ultrafiltration, siRNA bound the filtration device nonspecifically and PPB remained >98% across physiologically relevant siRNA concentrations.
View Article and Find Full Text PDFSmall interfering RNAs (siRNAs) represent a new class of medicines that are smaller (∼16,000 Da) than biologic therapeutics (>150,000 Da) but much larger than small molecules (<900 Da). Current regulatory guidance on drug-drug interactions (DDIs) from the European Medicines Agency, Food and Drug Administration, and Pharmaceutical and Medical Devices Agency provides no recommendations for oligonucleotide therapeutics including siRNAs; therefore, small molecule guidance documents have historically been applied. Over ∼10 years, in vitro DDI investigations with siRNAs conjugated to a triantennary -acetylgalactosamine [(GalNAc)-siRNA] ligand have been conducted during nonclinical drug development to elucidate the potential clinical DDI liability.
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