Astrocyte-derived VEGF-A drives blood-brain barrier disruption in CNS inflammatory disease
Azeb Tadesse Argaw, … , Michael V. Sofroniew, Gareth R. John
Azeb Tadesse Argaw, … , Michael V. Sofroniew, Gareth R. John
Published June 1, 2012
Citation Information: J Clin Invest. 2012;122(7):2454-2468. https://doi.org/10.1172/JCI60842.
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Research Article Neuroscience

Astrocyte-derived VEGF-A drives blood-brain barrier disruption in CNS inflammatory disease

Abstract

In inflammatory CNS conditions such as multiple sclerosis (MS), current options to treat clinical relapse are limited, and more selective agents are needed. Disruption of the blood-brain barrier (BBB) is an early feature of lesion formation that correlates with clinical exacerbation, leading to edema, excitotoxicity, and entry of serum proteins and inflammatory cells. Here, we identify astrocytic expression of VEGF-A as a key driver of BBB permeability in mice. Inactivation of astrocytic Vegfa expression reduced BBB breakdown, decreased lymphocyte infiltration and neuropathology in inflammatory and demyelinating lesions, and reduced paralysis in a mouse model of MS. Knockdown studies in CNS endothelium indicated activation of the downstream effector eNOS as the principal mechanism underlying the effects of VEGF-A on the BBB. Systemic administration of the selective eNOS inhibitor cavtratin in mice abrogated VEGF-A–induced BBB disruption and pathology and protected against neurologic deficit in the MS model system. Collectively, these data identify blockade of VEGF-A signaling as a protective strategy to treat inflammatory CNS disease.

Authors

Azeb Tadesse Argaw, Linnea Asp, Jingya Zhang, Kristina Navrazhina, Trinh Pham, John N. Mariani, Sean Mahase, Dipankar J. Dutta, Jeremy Seto, Elisabeth G. Kramer, Napoleone Ferrara, Michael V. Sofroniew, Gareth R. John

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Figure 6

GfapCre:Hif1afl/fl mice show normal VEGF-A expression and BBB opening in inflammatory lesions.

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GfapCre:Hif1afl/fl mice show normal VEGF-A expression and BBB opening i...
(A) Primary human astrocytes were treated with 10 ng/ml IL-1β, TGF-β1, or LPS for the indicated times, and HIF-1α induction was examined by immunoblot. (B) Human astrocytes were treated with 10 ng/ml IL-1β or vehicle for 24 hours. In IL-1β–treated cultures, HIF-1α localized to astrocytic nuclei (inset; enlarged 2-fold). Results in A and B are typical of data from 3 separate cultures of human astrocytes from different brains. (CG) AdIL-1 was microinjected into cortical gray matter of 12-week-old GfapCre:Hif1afl/fl mice and littermate controls (n = 4 per genotype), and animals were sacrificed at 7 dpi. Immunostaining and morphometry were performed for (C and D) HIF-1α, (C and E) VEGF-A, and (F and G) fibrinogen (a measure of BBB breakdown) and CLN-5. In D, representative cells (arrows) are shown enlarged 2-fold in the insets (arrowheads). Results in CG are representative of 3 independent experiments. Scale bars: 30 μm (B, D, and E); 40 μm (G). **P < 0.01, ANOVA plus Bonferroni test.