Roeben N. Munji scite author profile

The blood vessels vascularizing the central nervous system exhibit a series of distinct properties that tightly control the movement of ions, molecules, and cells between the blood and the parenchyma. This “blood–brain barrier” is initiated during angiogenesis via signals from the surrounding neural environment, and its integrity remains vital for homeostasis and neural protection throughout life. Blood–brain barrier dysfunction contributes to pathology in a range of neurological conditions including multiple sclerosis, stroke, and epilepsy, and has also been implicated in neurodegenerative diseases such as Alzheimer’s disease. This review will discuss current knowledge and key unanswered questions regarding the blood–brain barrier in health and disease.

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Oligodendrocyte precursors migrate along vasculature in the developing nervous system

Tsai

Niu

Munji

et al. 2016

Science

341

330

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Oligodendrocytes myelinate axons in the central nervous system and develop from oligodendrocyte precursor cells (OPCs) that must first migrate extensively during brain and spinal cord development. We show that OPCs require the vasculature as a physical substrate for migration. We observed that OPCs of the embryonic mouse brain and spinal cord, as well as the human cortex, emerge from progenitor domains and associate with the abluminal endothelial surface of nearby blood vessels. Migrating OPCs crawl along and jump between vessels. OPC migration in vivo was disrupted in mice with defective vascular architecture but was normal in mice lacking pericytes. Thus, physical interactions with the vascular endothelium are required for OPC migration. We identify Wnt-Cxcr4 (chemokine receptor 4) signaling in regulation of OPC-endothelial interactions and propose that this signaling coordinates OPC migration with differentiation.

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Profiling the mouse brain endothelial transcriptome in health and disease models reveals a core blood–brain barrier dysfunction module

et al. 2019

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Blood vessels in the central nervous system (CNS) form a specialized and critical structure, the blood-brain barrier (BBB). We present a resource to understand the molecular mechanisms that regulate BBB function in health and dysfunction during disease. Using endothelial cell enrichment and RNA sequencing, we analyzed the gene expression of endothelial cells in mice, comparing brain endothelial cells to peripheral endothelial cells. We also assessed the regulation of CNS Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Wnt Signaling Regulates Neuronal Differentiation of Cortical Intermediate Progenitors

Munji¹,

Choe²,

Li³

et al. 2011

J. Neurosci.

238

213

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LSR/angulin-1 is a tricellular tight junction protein involved in blood–brain barrier formation

et al. 2015

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Roeben N. Munji

The blood–brain barrier in health and disease: Important unanswered questions

Oligodendrocyte precursors migrate along vasculature in the developing nervous system

Profiling the mouse brain endothelial transcriptome in health and disease models reveals a core blood–brain barrier dysfunction module

Wnt Signaling Regulates Neuronal Differentiation of Cortical Intermediate Progenitors

LSR/angulin-1 is a tricellular tight junction protein involved in blood–brain barrier formation

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