AI Article Synopsis
- A novel phospholipid complex-based self-nanoemulsifying drug delivery system (PLC-SNEDDS) was designed to enhance the oral absorption of drugs that struggle with solubility and permeability issues.
- The study focused on morin, a BCS class IV drug and P-glycoprotein (P-gp) substrate, demonstrating that PLC-SNEDDS enhanced morin's intestinal permeability across all segments, shifting absorption from the colon to the ileum.
- Results indicated that PLC-SNEDDS utilizes cholesterol-dependent pathways for cell uptake, showing low cytotoxicity and improved delivery efficiency, suggesting a promising strategy for delivering poorly absorbed pharmaceuticals.
Article Abstract
Phospholipid complex (PLC) based self-nanoemulsifying drug delivery system (PLC-SNEDDS) has been developed for efficient delivery of drugs with poor solubility and low permeability. In the present study, a BCS class IV drug and a P-glycoprotein (P-gp) substrate, morin, was selected as the model drug to elucidate the oral absorption mechanism of PLC-SNEDDS. PLC-SNEDDS was superior to PLC in protecting morin from degradation by intestinal enzymes in vitro. In situ perfusion study showed increased intestinal permeability by PLC was duodenum-specific. In contrast, PLC-SNEDDS increased morin permeability in all intestinal segments and induced a change in the main absorption site of morin from colon to ileum. Moreover, ileum conducted the lymphatic transport of PLC-SNEDDS, which was proven by microscopic intestinal visualization of Nile red labeled PLC-SNEDDS and lymph fluids in vivo. Low cytotoxicity and increased Caco-2 cell uptake suggested a safe and efficient delivery of PLC-SNEDDS. The increased membrane fluidity and disrupted actin filaments were closely associated with the increased cell uptake of PLC-SNEDDS. PLC-SNEDDS could be internalized into enterocytes as an intact form in a cholesterol-dependent manner via clathrin-mediated endocytosis and macropinocytosis. The enhanced oral absorption of morin was attributed to the P-gp inhibition by Cremophor RH and the intact internalization of M-PLC-SNEDDS into Caco-2 cells bypassing P-gp recognition. Our findings thus provide new insights into the development of novel nanoemulsions for poorly absorbed drugs.
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| http://dx.doi.org/10.1021/mp5005806 | DOI Listing |
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