Three-dimensional co-culture of blood-brain barrier-composing cells in a culture insert with a collagen vitrigel membrane.

Abstract

The blood-brain barrier (BBB) is a structure located in brain capillaries that protects the brain from toxic substances in blood due to its high barrier function. The brain capillaries form a layered structure with pericytes, neurons, glial cells, and extracellular matrix proteins that is called neurovascular unit, and the structure is important to express the high barrier function of BBB. Here, we propose a method to construct a three-dimensional BBB tissue using three human BBB-composing cells, including brain endothelial cells, pericytes, and astrocytes, that mimics the in vivo BBB-like layered structure. Primary human brain endothelial cells were plated on the back side (outside) of the collagen vitrigel membrane of a culture insert, pericytes were plated on the upper side (inside), and astrocytes mixed in Matrigel were plated on the pericyte layer. The layered structure was maintained for at least 2wk. The BBB tissue-loaded collagen vitrigel membrane can be detached from the insert frame using acetone with the tissue fixed intact and used for vertical cryosectioning to analyze the tissue interior. We also measured transendothelial electrical resistance (TEER) in the three-dimensional BBB co-culture to investigate barrier function of the brain endothelial cells. We believe that our co-culture method is useful to study engineered BBB tissues and develop reliable in vitro human BBB models in the future.