Liposomally formulated phospholipid-conjugated novel near-infrared fluorescence probe for particle size effect on cellular uptake and biodistribution in vivo

Abstract

Lipid based nanoparticles (LBNs) with excellent biocompatibility and versatility have received much attention from the drug delivery community recently. A detailed understanding of in vitro and vivo fate of LBNs is important for developing different types of LBNs with improved selectivity and low cytotoxicity. We developed a novel near-infrared (NIR) probe with high fluorescence, designated as DSPE-ir623 (iDSPE). Then, we prepared iDSPE-embeded liposomes (iLPs) with two different hydrodynamic sizes (∼100nm and ∼400nm) to evaluate the effect of particle size on cellular uptake and biodistribution of nanoliposomes in vivo. These iLPs were proved to exhibit good monodispersity, excellent fluorescence and stability. In vitro cell uptake tests demonstrated that iLPs-1 (∼100nm) were taken up more by HT-29 cells than iLPs-2 (∼400nm). Notably, the fluorescence of iLPs can be employed for real-time monitoring of the subcellular locating and its metabolic distribution in vivo. Near-infrared imaging in vivo illustrated that iLPs-1 was mainly accumulated in the tumor tissues, while iLPs-2 was accumulated in liver and spleen. The results indicated that the size of iLPs play an important role in the regulation of intracellular trafficking and biodistribution of liposomes, which also provide a new insight into the development of more effective LBNs. Hence, iDSPE might be a promising tool for the reliable tracing of different types of LBNs.