神经前体细胞中的RECK在小鼠前脑血管生成中起关键作用。
RECK in Neural Precursor Cells Plays a Critical Role in Mouse Forebrain Angiogenesis.
作者信息
Li Huiping, Miki Takao, Almeida Glícia Maria de, Hanashima Carina, Matsuzaki Tomoko, Kuo Calvin J, Watanabe Naoki, Noda Makoto
机构信息
Department of Molecular Oncology, Kyoto University Graduate School of Medicine, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan; Laboratory of Single-Molecule Cell Biology, Kyoto University Graduate School of Biostudies, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan.
Department of Molecular Oncology, Kyoto University Graduate School of Medicine, Yoshida-Konoe-cho, Sakyo-ku, Kyoto 606-8501, Japan.
出版信息
iScience. 2019 Sep 27;19:559-571. doi: 10.1016/j.isci.2019.08.009. Epub 2019 Aug 8.
RECK in neural precursor cells (NPCs) was previously found to support Notch-dependent neurogenesis in mice. On the other hand, recent studies implicate RECK in endothelial cells (ECs) in WNT7-triggered canonical WNT signaling essential for brain angiogenesis. Here we report that RECK in NPCs is also critical for brain angiogenesis. When Reck is inactivated in Foxg1-positive NPCs, mice die shortly after birth with hemorrhage in the forebrain, with angiogenic sprouts stalling at the periphery and forming abnormal aggregates reminiscent of those in EC-selective Reck knockout mice and Wnt7a/b-deficient mice. The hemorrhage can be pharmacologically suppressed by lithium chloride. An effect of RECK in WNT7-producing cells to enhance canonical WNT-signaling in reporter cells is detectable in mixed culture but not with conditioned medium. Our findings suggest that NPC-expressed RECK has a non-cell-autonomous function to promote forebrain angiogenesis through contact-dependent enhancement of WNT signaling in ECs, implying possible involvement of RECK in neurovascular coupling.
此前发现,神经前体细胞(NPC)中的RECK可支持小鼠体内Notch依赖性神经发生。另一方面,最近的研究表明,内皮细胞(EC)中的RECK参与WNT7触发的对脑血管生成至关重要的经典WNT信号传导。在此我们报告,NPC中的RECK对脑血管生成也至关重要。当Reck在Foxg1阳性NPC中失活时,小鼠在出生后不久即死亡,前脑出现出血,血管生成芽在周边停滞,并形成异常聚集物,这与EC选择性Reck基因敲除小鼠和Wnt7a/b缺陷小鼠中的情况相似。出血可通过氯化锂进行药理学抑制。在混合培养中可检测到RECK在产生WNT7的细胞中增强报告细胞中经典WNT信号传导的作用,但在条件培养基中则检测不到。我们的研究结果表明,NPC表达的RECK具有非细胞自主功能,可通过接触依赖性增强EC中的WNT信号传导来促进前脑血管生成,这意味着RECK可能参与神经血管耦合。
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