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Human Immortalized Cell-Based Blood–Brain Barrier Spheroid Models Offer an Evaluation Tool for the Brain Penetration Properties of Macromolecules

Keita Kitamura, Ayaka Okamoto, Hanae Morio, Ryuto Isogai, Ryo Ito, Yoshiyuki Yamaura, Saki Izumi, Takafumi Komori, Shingo Ito, Sumio Ohtsuki, Hidetaka Akita, Tomomi Furihata

2022Molecular Pharmaceutics14 citationsDOI

Abstract

Blood-brain barrier (BBB)-permeable middle- or macromolecules (middle/macromolecules) have recently attracted significant attention as new drug delivery carriers into the human brain via receptor-mediated transcytosis (RMT). During the development process of such carriers, it is necessary to thoroughly evaluate their human BBB permeability levels. In such evaluations, our recently established human immortalized cell-based multicellular spheroidal BBB models (hiMCS-BBB models) have shown high potential. However, the specifics of those capabilities have yet to be elucidated. Therefore, in this study, we characterize the ability of the hiMCS-BBB models to evaluate RMT-mediated BBB penetration properties of middle/macromolecules. More specifically, we began by validating transferrin receptor (TfR)-mediated RMT functionalities using transferrin in the hiMCS-BBB models and then examined the BBB permeability levels of MEM189 antibodies (known BBB-permeable anti-TfR antibodies). The obtained results showed that, as with the case of transferrin, temperature-dependent uptake of MEM189 antibodies was observed in the hiMCS-BBB models, and the extent of that uptake increased in a time-dependent manner until reaching a plateau after around 2 h. To further expand the evaluation applicability of the models, we also examined the BBB permeability levels of the recently developed SLS cyclic peptide and observed that peptide uptake was also temperature-dependent. To summarize, our results show that the hiMCS-BBB models possess the ability to evaluate the RMT-mediated BBB-permeable properties of antibodies and peptides and thus have the potential to provide valuable tools for use in the exploration and identification of middle/macromolecules showing excellent BBB permeability levels, thereby contributing powerfully to the development of new drug delivery carriers for transporting drugs into the human brain.

Topics & Concepts

SpheroidPenetration (warfare)Blood–brain barrierMacromoleculeBrain CellCellCell biologyChemistryBiophysicsBiomedical engineeringCell cultureBiologyNeuroscienceMedicineCentral nervous systemEngineeringBiochemistryGeneticsOperations researchBarrier Structure and Function Studies3D Printing in Biomedical ResearchNanoparticle-Based Drug Delivery
Human Immortalized Cell-Based Blood–Brain Barrier Spheroid Models Offer an Evaluation Tool for the Brain Penetration Properties of Macromolecules | Litcius