Recent advancements on in vitro blood-brain barrier model: A reliable and efficient screening approach for preclinical and clinical investigation

ABSTRACT

Introduction

The efficiency of brain therapeutics is greatly hindered by the blood-brain barrier (BBB). BBB’s protective function, selective permeability, and dynamic functionality maintain the harmony between the brain and peripheral region. Thus, the design of any novel drug carrier system requires the complete study and investigation of BBB permeability, efflux transport, and the effect of associated cellular and non-vascular unit trafficking on BBB penetrability. The in vitro BBB models offer a most promising, and reliable mode of initial investigation of BBB permeability and associated factors as strong evidence for further preclinical and clinical investigation.

Area covered

This review work covers the structure and functions of BBB components and different types of in vitro BBB models along with factors affecting BBB model development and model selection criteria.

Expert opinion

In vivo models assume to reciprocate the physiological environment to the maximum extent. However, the interspecies variability, NVUs trafficking, dynamic behavior of BBB, etc., lead to non-reproducible results. The in vitro models are comparatively less complex, and flexible, as per the study design, could generate substantial evidence and help identify suitable in vivo animal model selection.

KEYWORDS:

• In vitro BBB model
• BBB-on-chip
• microfluidic design
• model selection criterion
• stem cell-derived BBB model

Article highlights

• The co-culture BBB model can study the effect of different cellular components on BBB permeability.

• Stem cell-derived BBB model can imitate the tight junction, TEER, and other transmembrane proteins.

• The diseased BBB model can be used to study the target activation and altered permeability.

• Organoid, spheroid, or hydrogel-based 3D BBB models replicate multiple components and the dynamic nature of BBB.

This box summarizes key points contained in the article.

Abbreviations

BBB	=	Blood-Brain barrier
TEER	=	Trans endothelial electrical resistance
JAM	=	Junction adhesion molecule
EC	=	Endothelial Cells
NVU	=	Neuro Vascular Unit
hBECs	=	human Brain Endothelial Cells
CSF	=	Cerebrospinal Fluid
DIV-BBB	=	Dynamic in vitro BBB
BCEC	=	Brain capillary endothelial cells
BMECs	=	Brain microvascular endothelial cells
IRB	=	Institutional review board
CPF	=	Chlorpyrifos
PMT	=	Permethrin
CFT	=	Cyfluthrin
TJ	=	Tight Junction
ZO	=	Zonula occludens
QSAR	=	Quantitative Structural Activity Relationship
IVIVC	=	in vitro-in vivo correlation
P-gp	=	P-glycoprotein
HiPSCs	=	Human-induced Pluripotent Stem Cells
hPSCs	=	Human pluripotent stem cells
PECAM-1	=	Platelet endothelial cell adhesion molecule
VE	=	vascular endothelial
hESC	=	human embryonic stem cell
vWF	=	von Willebrand factor
CAA	=	Cerebral Amyloid Angiopathy
IECs	=	Immortalized Endothelial Cells
BCRP	=	Breast Cancer Resistant Protein
OGD	=	Oxygen-Glucose Deprivation
BEC	=	Brain Endothelial Cells
iPSCs	=	induced Pluripotent Stem Cells
ESCs	=	Embryonic Stem Cells
RA	=	Retinoic Acid
PCR	=	Polymerase Chain Reaction
HTS	=	High Throughput Screening
BVOs	=	Blood Vessel Organoid
VEGF	=	Vascular endothelial Growth Factor
GBM	=	Glioblastoma multiforme
PDMS	=	Polydimethylsiloxane
PMMA	=	Poly(methylmethacrylate)

Declaration of Interest

The authors have no relevant affiliations or financial involvement with any organization or entity with a financial interest in or financial conflict with the subject matter or the material discussed in the manuscript. This includes employment, consultancies, honorary, stock ownership or options, expert testimony, grants, patents received or pending, or royalties.

Reviewer disclosures

Peer reviewers on this manuscript have no relevant financial or other relationships to disclose.

Acknowledgments

The author wants to extend gratitude to National Institute of Pharmaceutical Education and Research, Guwahati, India, for providing necessary support for compilation of this work.

Additional information

Funding

This paper was not funded.