Modification of primary amines to higher order amines reduces in vivo hematological and immunotoxicity of cationic nanocarriers through TLR4 and complement pathways

Abstract: For decades, cationic polymer nanoparticles have been investigated for nucleic acid delivery. Despite promising in vitro transfection results, most formulations have failed to translate into the clinic due to significant in vivo toxicity -especially when delivered intravenously. To address this significant problem, we investigated the detailed mechanisms that govern the complex in vivo systemic toxicity response to common polymeric nanoparticles.We determined that the toxicity response is material dependent. F… Show more

“…3). Amine-binding is key to pathogen detection and immune response [171][172][173][174], with electron-acceptor/donor interactions central to lectin binding to chitin (γ LW = 41, γ + =1.3, γ -=17.1 mJ/m 2 [175]) via the N-acetyl group [176]. Ca 2+ complexation (bridging) affects its ΔG [177][178][179][180].…”

Nanoparticles in bodily tissues: predicting their equilibrium distributions

“…3). Amine-binding is key to pathogen detection and immune response [171][172][173][174], with electron-acceptor/donor interactions central to lectin binding to chitin (γ LW = 41, γ + =1.3, γ -=17.1 mJ/m 2 [175]) via the N-acetyl group [176]. Ca 2+ complexation (bridging) affects its ΔG [177][178][179][180].…”

Nanoparticles in bodily tissues: predicting their equilibrium distributions