Litcius/Paper detail

Folic acid-modified reverse micelle-lipid nanocapsules overcome intestinal barriers and improve the oral delivery of peptides

Jibiao He, Ruihuan Ding, Yuping Tao, Zhenyu Zhao, Ranran Yuan, Houqian Zhang, Aiping Wang, Kaoxiang Sun, Youxin Li, Yanan Shi

2023Drug Delivery16 citationsDOIOpen Access PDF

Abstract

The oral absorption of exenatide, a type 2 diabetes medication, can be increased by employing lipid nanocapsules (LNC). To increase mucus permeability and exenatide intestinal absorption, reverse micelle lipid nanocapsules (RM-LNC) were prepared and their surface was modified with DSPE-PEG-FA. The RM-LNC with surface modification of DSPE-PEG-FA (FA-RM-LNC) were able to target enterocytes and reduce mucus aggregation in the intestine. Furthermore, in vitro absorption at different intestinal sites and flip-flop intestinal loop experiments revealed that LNCs with surface modification significantly increased their absorption efficiency in the small intestine. FA-RM-LNC delivers more drugs into Caco-2 cells via caveolin-, macrophagocytosis-, and lipid raft-mediated endocytosis. Additionally, the enhanced transport capacity of FA-RM-LNC was observed in a study of monolayer transport in Caco-2 cells. The oral administration of exenatide FA-RM-LNC resulted in a prolonged duration of hypoglycemia in diabetic mice and a relative bioavailability (BR) of up to 7.5% in rats. In conclusion, FA-RM-LNC can target enterocytes and has promising potential as a nanocarrier for the oral delivery of peptides.

Topics & Concepts

BioavailabilityNanocapsulesNanocarriersMicelleExenatidePharmacologyAbsorption (acoustics)Oral administrationChemistryBiophysicsDrug deliveryMaterials scienceMedicineNanotechnologyEndocrinologyType 2 diabetesDiabetes mellitusBiologyAqueous solutionNanoparticleComposite materialPhysical chemistryAdvanced Drug Delivery SystemsDiabetes Treatment and ManagementDrug Solubulity and Delivery Systems