Tu Tianqi, Zhang Shikun, Li Jingwei, Jiang Chendan, Ren Jian, Zhang Shiju, Meng Xiaosheng, Peng Hao, Xing Dong, Zhang Hongqi, Hong Tao, Yu Jiaxing
Department of Neurosurgery, Xuanwu Hospital, International Neuroscience Institute, Capital Medical University, Beijing, 100053, China.
Department of Neurosurgery, The Affiliated Hospital of Southwest Medical University, Luzhou, China.
Angiogenesis. 2024 Dec 5;28(1):3. doi: 10.1007/s10456-024-09957-1.
Brain arteriovenous malformations (bAVMs) are a major cause of hemorrhagic stroke in children and young adults. These lesions are thought to result from somatic KRAS/BRAF mutations in brain endothelial cells (bECs). In this study, we introduce a new bAVM model by inducing a brain endothelial-specific Braf mutation using the Slc1o1c1(BAC)-CreER driver line. The pathological characteristics of this model resemble human bAVMs, including dilated and hyperpermeable vessels, as well as parenchymal hemorrhage. We observed that these lesions showed a typical reduction in pericyte coverage and disruption of the pericyte-endothelial cell connection. Additionally, we found that ANGPT2 levels were significantly increased in the endothelium of bAVM lesions, which may be a critical factor in the pericyte deficits of the malformed vessels. Treatment with an ANGPT2 neutralizing antibody confirmed that blocking ANGPT2 can restore pericyte density in bAVM lesions, improve pericyte coverage around microvessels, enhance tight junction protein coverage related to endothelial cells, and normalize endothelial barrier function. In summary, our findings suggest that increased ANGPT2 expression in endothelial cells with the Braf mutation is a key factor in pericyte deficiencies in bAVMs, highlighting the potential effectiveness of anti-ANGPT2 therapy in treating bAVMs.
脑动静脉畸形(bAVM)是儿童和年轻成人出血性中风的主要原因。这些病变被认为是由脑内皮细胞(bEC)中的体细胞KRAS/BRAF突变引起的。在本研究中,我们通过使用Slc1o1c1(BAC)-CreER驱动系诱导脑内皮特异性Braf突变,引入了一种新的bAVM模型。该模型的病理特征类似于人类bAVM,包括血管扩张和通透性增加,以及实质出血。我们观察到这些病变显示周细胞覆盖典型减少,周细胞-内皮细胞连接破坏。此外,我们发现bAVM病变内皮中的ANGPT2水平显著升高,这可能是畸形血管周细胞缺陷的关键因素。用ANGPT2中和抗体治疗证实,阻断ANGPT2可恢复bAVM病变中的周细胞密度,改善微血管周围的周细胞覆盖,增强与内皮细胞相关的紧密连接蛋白覆盖,并使内皮屏障功能正常化。总之,我们的研究结果表明,Braf突变的内皮细胞中ANGPT2表达增加是bAVM周细胞缺陷的关键因素,突出了抗ANGPT2治疗在治疗bAVM中的潜在有效性。
