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Design of nanostructured lipid carriers and solid lipid nanoparticles for enhanced cellular uptake

Florina Veider, Zeynep Burcu Akkuş‐Dağdeviren, Patrick Knoll, Andreas Bernkop‐Schnürch

2022International Journal of Pharmaceutics52 citationsDOIOpen Access PDF

Abstract

In this study PEG-free and zeta potential changing lipid-based nanocarriers providing enhanced cellular uptake were developed. Nanostructured lipid carriers (NLC), consisting of paraffin wax, caprylic/ capric triglyceride, cetyltrimethylammoniumchloride and either soy lecithin or polyglycerol-4 laurate and solid lipid nanoparticles (SLN) with the same composition but without the liquid lipid content were developed. All formulations exposed a positive surface charge and were then coated with the polyphosphate Graham's salt. Phosphate release from these formulations was evaluated by incubation with intestinal alkaline phosphatase as well as on a Caco-2 monolayer and zeta potentials were measured. Additionally, cellular uptake studies were performed. Within 5 h, a remarkable amount of phosphate was released from all formulations incubated with intestinal alkaline phosphatase. Enzymatically induced phosphate release with intestinal alkaline phosphatase led to a zeta potential shift up to Δ 26 mV. Results of phosphate release and zeta potential change were confirmed on Caco-2 cells. Cellular uptake studies on Caco-2 cells showed an up to 5.6-times higher uptake compared to cells with inhibited phosphatase. According to these results, polyphosphate coating is a powerful tool to obtain lipid-based nanocarriers for enhanced cellular uptake.

Topics & Concepts

Zeta potentialAlkaline phosphatasePolyphosphateChemistryNanocarriersSolid lipid nanoparticlePhosphateLecithinChromatographyBiochemistryNanoparticleBiophysicsParticle sizeChemical engineeringEnzymeDrug deliveryOrganic chemistryPhysical chemistryEngineeringBiologyLipid Membrane Structure and BehaviorRNA Interference and Gene DeliveryNanoparticle-Based Drug Delivery
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