Abstract

Cerebral cavernous malformations (CCMs) are enlarged leaking vascular lesions in the brain caused by loss-of-function mutations in CCM1/2/3 genes or loss of expression. Although we previously showed that Nogo-B receptor (NgBR) knockout in endothelial cells (ECs) results in CCMs-like cerebrovascular lesions in the mouse embryo, the molecular mechanism by which NgBR regulates CCM1/2 expression has not been elucidated. Here, we show that temporal genetic depletion of NgBR in ECs at both the postnatal and adult stages results in CCM1/2 expression deficiency and consequently CCMs-like lesions such as enlarged vessels, blood-brain barrier (BBB) hyperpermeability, and intracerebral hemorrhage. These cerebrovascular defects in the brain of NgBR endothelial-specific knockout (ecKO) mice can be rescued by adeno-associated virus (AAV)-mediated overexpression of CCM1 and CCM2 genes. To reveal the molecular mechanism, we used RNA-seq analysis to examine changes in the transcriptome. Surprisingly, we found that acetyltransferase HBO1 was downregulated in NgBR deficient ECs. The mechanistic study elucidated that NgBR is required for maintaining the expression of CCM1/2 in ECs via HBO1-mediated histone acetylation. ChIP-qPCR data further demonstrated that loss of NgBR impairs the binding of both the HBO1 and acetylated H4K5/K12 at the promoter of CCM1 and CCM2 genes. Similarly, AAV-mediated overexpression of HBO1 restores the acetylation of H4K5/K12 and rescues the CCMs-like cerebrovascular defects in the brain of NgBR ecKO mice. Our findings on epigenetic regulation of CCM1 and CCM2 provide a perspective that NgBR and HBO1-mediated histone H4 acetylation may be targeted for preventing the onset of CCMs-like cerebrovascular disease.

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