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Engineering the Human Blood–Brain Barrier at the Capillary Scale using a Double‐Templating Technique

Nan Zhao, Zhaobin Guo, Sarah Kulkarni, Danielle Norman, Sophia Zhang, Tracy D. Chung, Renée F. Nerenberg, Raleigh M. Linville, Peter C. Searson

2022Advanced Functional Materials25 citationsDOIOpen Access PDF

Abstract

blood-brain barrier (BBB) models have played an important role in studying processes such as immune cell trafficking and drug delivery, as well as contributing to the understanding of mechanisms of disease progression. Many biological and pathological processes in the cerebrovasculature occur in capillaries and hence the lack of robust hierarchical models at the capillary scale is a major roadblock in BBB research. Here we report on a double-templating technique for engineering hierarchical BBB models with physiological barrier function at the capillary scale. We first demonstrate the formation of hierarchical vascular networks using human umbilical vein endothelial cells. We then characterize barrier function in a BBB model using brain microvascular endothelial-like cells (iBMECs) differentiated from induced pluripotent stem cells (iPSCs). Finally, we characterize immune cell adhesion and transmigration in response to perfusion with the inflammatory cytokine tumor necrosis factor-alpha, and show that we can recapitulate capillary-scale effects, such as leukocyte plugging, observed in mouse models. Our double-templated hierarchical model enables the study of a wide range of biological and pathological processes related to the human BBB.

Topics & Concepts

Blood–brain barrierInduced pluripotent stem cellImmune systemEndothelial stem cellTumor necrosis factor alphaCytokineCell biologyDrug delivery to the brainBarrier functionUmbilical veinMaterials scienceBiologyIn vitroNeuroscienceImmunologyCentral nervous systemEmbryonic stem cellBiochemistryGeneBarrier Structure and Function Studies3D Printing in Biomedical ResearchNeuroinflammation and Neurodegeneration Mechanisms