Multicellular Organoids of the Neurovascular Blood-Brain Barrier: A New Platform for Precision Neuronanomedicine

Abstract: The treatment of neurological disorders (NDs) is challenged by low dug permeability from the systemic circulation into the central nervous system (CNS) owing to the presence of the blood brain barrier (BBB). Neuronanomedicine investigates nanotechnology strategies to target the brain and improve the therapeutic outcome in NDs. 2D adherent cell BBB models show substantial phenogenomic heterogeneity and their ability to predict the permeability of molecules and nanoparticles into the brain is extremely limited. … Show more

“…Rod-shaped cerium oxide (CeO 2 ) NPs were also more toxic than octahedral or cubic particles in terms of LDH and tumor necrosis factor alpha (TNF) release in macrophages [64]. In a previous work, we demonstrated that, the low accumulation of 60nm sized Ag NPs (60 ± 13 nm) in neurovascular blood-brain barrier (NV-BBB) organoids due to its dissolution outside and inside the brain microenvironment [38,39]. There is therefore increasing data suggesting that the geometric properties of NPs mediate toxicity, but a more systematic approach would further advance our knowledge with respect to exactly which shapes exert the most cytotoxic effects.…”

“…Recent studies have also demonstrated that the geometries of NPs impact protein corona formation [33], circulation time, cellular uptake, and bio-distribution [34]. In the last few years, we conducted systematic in vitro 2-dimensional [35][36][37] and 3-dimensional (brain organoids and spheroids) [38,39] studies to evaluate cellular neurosafety and neural uptake of well-characterized polymeric, metallic (Ag and Au) and ceramic NPs. Among various physico-chemical properties known to in uence biological activities, In this study we focused on the different shape of Ag NPs.…”

The effects of silver nanoparticle shape on protein adsorption and neural stem cell viability

“…Rod-shaped cerium oxide (CeO 2 ) NPs were also more toxic than octahedral or cubic particles in terms of LDH and tumor necrosis factor alpha (TNF) release in macrophages [64]. In a previous work, we demonstrated that, the low accumulation of 60nm sized Ag NPs (60 ± 13 nm) in neurovascular blood-brain barrier (NV-BBB) organoids due to its dissolution outside and inside the brain microenvironment [38,39]. There is therefore increasing data suggesting that the geometric properties of NPs mediate toxicity, but a more systematic approach would further advance our knowledge with respect to exactly which shapes exert the most cytotoxic effects.…”

“…Recent studies have also demonstrated that the geometries of NPs impact protein corona formation [33], circulation time, cellular uptake, and bio-distribution [34]. In the last few years, we conducted systematic in vitro 2-dimensional [35][36][37] and 3-dimensional (brain organoids and spheroids) [38,39] studies to evaluate cellular neurosafety and neural uptake of well-characterized polymeric, metallic (Ag and Au) and ceramic NPs. Among various physico-chemical properties known to in uence biological activities, In this study we focused on the different shape of Ag NPs.…”

The effects of silver nanoparticle shape on protein adsorption and neural stem cell viability