Transferrin receptor antibody-modified α-cobrotoxin-loaded nanoparticles enable drug delivery across the blood–brain barrier by intranasal administration

Abstract

A novel drug carrier for brain delivery, maleimide–poly(ethyleneglycol)–poly(lactide) (maleimide–PEG–PLA) nanoparticles (NPs) conjugated with mouse–anti-rat monoclonal antibody OX26 (OX26–NPs), was developed and its brain delivery property was evaluated. The diblock copolymers of maleimide–PEG–PLA were synthesized and applied to α-cobrotoxin (αCT)-loaded NPs which were characterized by transmission electron micrograph imaging, Fourier-transform IR, and X-ray diffraction. The NPs encapsulating αCT had a round and vesicle-like shape with a mean diameter around 100 nm, and the OX26 had covalently conjugated to the surface of NPs. MTT studies in brain microvascular endothelial cells (BMEC) revealed a moderate decrease in the cell viability of αCT, when incorporated in OX26–NPs compared to free αCT in solution. A higher affinity of the OX26–αCT–NPs to the BMEC was shown in comparison to αCT–NPs. Then, OX26–αCT–NPs were intranasally (i.n.) administered to rats, and αCT in the periaqueductal gray was monitored for up to 480 min using microdialysis technique in free-moving rats, with i.n. αCT–NPs, i.n. OX26–αCT–NPs, intramuscular injection (i.m.) αCT–NPs, and i.m. OX26–αCT–NPs. The brain transport results showed that the corresponding absolute bioavailability (F abs) of i.n. OX26–αCT–NPs were about 125 and 155 % with i.n. αCT–NPs and i.m. OX26–αCT–NPs, respectively, and it was found that both the C max and AUC of the four groups were as follows: i.n. OX26–αCT–NPs > i.n. αCT–NPs > i.m. OX26–αCT–NPs > i.m. αCT–NPs, while αCT solution, as control groups, could hardly enter the brain. These results indicated that OX26–NPs are promising carriers for peptide brain delivery.