Nuclear factor I-A regulates diverse reactive astrocyte responses after CNS injury
Dylan Laug, … , Hyun Kyoung Lee, Benjamin Deneen
Dylan Laug, … , Hyun Kyoung Lee, Benjamin Deneen
Published October 1, 2019; First published September 9, 2019
Citation Information: J Clin Invest. 2019;129(10):4408-4418. https://doi.org/10.1172/JCI127492.
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Categories: Research Article Development Neuroscience

Nuclear factor I-A regulates diverse reactive astrocyte responses after CNS injury

Abstract

Reactive astrocytes are associated with every form of neurological injury. Despite their ubiquity, the molecular mechanisms controlling their production and diverse functions remain poorly defined. Because many features of astrocyte development are recapitulated in reactive astrocytes, we investigated the role of nuclear factor I-A (NFIA), a key transcriptional regulator of astrocyte development whose contributions to reactive astrocytes remain undefined. Here, we show that NFIA is highly expressed in reactive astrocytes in human neurological injury and identify unique roles across distinct injury states and regions of the CNS. In the spinal cord, after white matter injury (WMI), NFIA-deficient astrocytes exhibit defects in blood-brain barrier remodeling, which are correlated with the suppression of timely remyelination. In the cortex, after ischemic stroke, NFIA is required for the production of reactive astrocytes from the subventricular zone (SVZ). Mechanistically, NFIA directly regulates the expression of thrombospondin 4 (Thbs4) in the SVZ, revealing a key transcriptional node regulating reactive astrogenesis. Together, these studies uncover critical roles for NFIA in reactive astrocytes and illustrate how region- and injury-specific factors dictate the spectrum of reactive astrocyte responses.

Authors

Dylan Laug, Teng-Wei Huang, Navish A. Bosquez Huerta, Anna Yu-Szu Huang, Debosmita Sardar, Joshua Ortiz-Guzman, Jeffrey C. Carlson, Benjamin R. Arenkiel, Chay T. Kuo, Carrie A. Mohila, Stacey M. Glasgow, Hyun Kyoung Lee, Benjamin Deneen

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Figure 3

NFIA-deficient astrocytes exhibit impaired BBB remodeling after WMI.

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NFIA-deficient astrocytes exhibit impaired BBB remodeling after WMI. (A–...
(AD) Deletion of NFIA from astrocytes resulted in an increase in the presence of albumin (A versus C) and a decrease in the expression of the astrocyte endfeet protein Aqp4 (B versus D.) Graphs in E and F are derived from 4 animals per genotype, and quantification involved 8 sections per animal. (G) Schematic overview of in vitro endothelial/astrocyte barrier assay. (H) NFIA-deficient astrocytes exhibited decreased TEER electrical resistance when cocultured with endothelial cells. The experiment was conducted in triplicate, with 3 coculture wells per genotype for each replicate. Data were analyzed using a Student’s t test and are shown as box-and-whisker plots. The bounds of the boxes represent upper and lower quartiles. The lines in the boxes represent the median, and the whiskers represent the maximum and minimal values. *P = 0.01, **P = 0.003, and ***P = 0.0036. Scale bar: 100 μm.