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Full-Text Articles in Pharmacy and Pharmaceutical Sciences
Polymer Nanoassemblies With Hydrophobic Pendant Groups In The Core Induce False Positive Sirna Transfection In Luciferase Reporter Assays, Steven Rheiner, Derek Alexander Reichel, Piotr G. Rychahou, Tadahide Izumi, Hsin-Sheng Yang, Younsoo Bae
Polymer Nanoassemblies With Hydrophobic Pendant Groups In The Core Induce False Positive Sirna Transfection In Luciferase Reporter Assays, Steven Rheiner, Derek Alexander Reichel, Piotr G. Rychahou, Tadahide Izumi, Hsin-Sheng Yang, Younsoo Bae
Pharmaceutical Sciences Faculty Publications
Poly(ethylene glycol)-conjugated polyethylenimine (PEG-PEI) is a widely studied cationic polymer used to develop non-viral vectors for siRNA therapy of genetic disorders including cancer. Cell lines stably expressing luciferase reporter protein typically evaluate the transfection efficacy of siRNA/PEG-PEI complexes, however recent findings revealed that PEG-PEI can reduce luciferase expression independent of siRNA. This study elucidates a cause of the false positive effect in luciferase assays by using polymer nanoassemblies (PNAs) made from PEG, PEI, poly-(L-lysine) (PLL), palmitate (PAL), and deoxycholate (DOC): PEG-PEI (2P), PEG-PEI-PAL (3P), PEG-PLL (2P′), PEG-PLL-PAL (3P′), and PEG-PEI-DOC (2PD). In vitro transfection and western blot assays of luciferase …
From Dose To Response: In Vivo Nanoparticle Processing And Potential Toxicity, Uschi M. Graham, Gary Jacobs, Robert A. Yokel, Burtron H. Davis, Alan K. Dozier, M. Eileen Birch, Michael T. Tseng, Günter Oberdörster, Alison Elder, Lisa Delouise
From Dose To Response: In Vivo Nanoparticle Processing And Potential Toxicity, Uschi M. Graham, Gary Jacobs, Robert A. Yokel, Burtron H. Davis, Alan K. Dozier, M. Eileen Birch, Michael T. Tseng, Günter Oberdörster, Alison Elder, Lisa Delouise
Pharmaceutical Sciences Faculty Publications
Adverse human health impacts due to occupational and environmental exposures to manufactured nanoparticles are of concern and pose a potential threat to the continued industrial use and integration of nanomaterials into commercial products. This chapter addresses the inter-relationship between dose and response and will elucidate on how the dynamic chemical and physical transformation and breakdown of the nanoparticles at the cellular and subcellular levels can lead to the in vivo formation of new reaction products. The dose-response relationship is complicated by the continuous physicochemical transformations in the nanoparticles induced by the dynamics of the biological system, where dose, bio-processing, and …