Endothelial Rbpj deletion normalizes Notch4-induced brain arteriovenous malformation in mice.

Corinne M Nielsen, Xuetao Zhang, Kunal Raygor, Shaoxun Wang, Andrew W Bollen, Rong A Wang

The Journal of experimental medicine 2023 Feb 06

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Upregulation of Notch signaling is associated with brain arteriovenous malformation (bAVM), a disease that lacks pharmacological treatments. Tetracycline (tet)-regulatable endothelial expression of constitutively active Notch4 (Notch4*tetEC) from birth induced bAVMs in 100% of mice by P16. To test whether targeting downstream signaling, while sustaining the causal Notch4*tetEC expression, induces AVM normalization, we deleted Rbpj, a mediator of Notch signaling, in endothelium from P16, by combining tet-repressible Notch4*tetEC with tamoxifen-inducible Rbpj deletion. Established pathologies, including AV connection diameter, AV shunting, vessel tortuosity, intracerebral hemorrhage, tissue hypoxia, life expectancy, and arterial marker expression were improved, compared with Notch4*tetEC mice without Rbpj deletion. Similarly, Rbpj deletion from P21 induced advanced bAVM regression. After complete AVM normalization induced by repression of Notch4*tetEC, virtually no bAVM relapsed, despite Notch4*tetEC re-expression in adults. Thus, inhibition of endothelial Rbpj halted Notch4*tetEC bAVM progression, normalized bAVM abnormalities, and restored microcirculation, providing proof of concept for targeting a downstream mediator to treat AVM pathologies despite a sustained causal molecular lesion. © 2022 Nielsen et al.

Citation

Corinne M Nielsen, Xuetao Zhang, Kunal Raygor, Shaoxun Wang, Andrew W Bollen, Rong A Wang. Endothelial Rbpj deletion normalizes Notch4-induced brain arteriovenous malformation in mice. The Journal of experimental medicine. 2023 Feb 06;220(2)