CDP-二酰基甘油合成酶控制的磷酸肌醇可用性限制 VEGFA 信号转导和血管形态发生。
CDP-diacylglycerol synthetase-controlled phosphoinositide availability limits VEGFA signaling and vascular morphogenesis.
机构信息
Program in Genomics of Differentiation, National Institute of Child Health and Human Development, National Institutes of Health, Bethesda, MD 20892, USA
出版信息
Blood. 2012 Jul 12;120(2):489-98. doi: 10.1182/blood-2012-02-408328. Epub 2012 May 30.
Abstract
Understanding the mechanisms that regulate angiogenesis and translating these into effective therapies are of enormous scientific and clinical interests. In this report, we demonstrate the central role of CDP-diacylglycerol synthetase (CDS) in the regulation of VEGFA signaling and angiogenesis. CDS activity maintains phosphoinositide 4,5 bisphosphate (PIP2) availability through resynthesis of phosphoinositides, whereas VEGFA, mainly through phospholipase Cγ1, consumes PIP2 for signal transduction. Loss of CDS2, 1 of 2 vertebrate CDS enzymes, results in vascular-specific defects in zebrafish in vivo and failure of VEGFA-induced angiogenesis in endothelial cells in vitro. Absence of CDS2 also results in reduced arterial differentiation and reduced angiogenic signaling. CDS2 deficit-caused phenotypes can be successfully rescued by artificial elevation of PIP2 levels, and excess PIP2 or increased CDS2 activity can promote excess angiogenesis. These results suggest that availability of CDS-controlled resynthesis of phosphoinositides is essential for angiogenesis.
摘要
理解调节血管生成的机制并将其转化为有效的治疗方法具有巨大的科学和临床意义。在本报告中,我们证明了 CDP-二酰基甘油合成酶(CDS)在调节 VEGFA 信号和血管生成中的核心作用。CDS 活性通过重新合成磷脂酰肌醇来维持磷酸肌醇 4,5 二磷酸(PIP2)的可用性,而 VEGFA 主要通过磷脂酶 Cγ1 消耗 PIP2 进行信号转导。脊椎动物 CDS 酶之一 CDS2 的缺失会导致斑马鱼体内血管特异性缺陷和体外内皮细胞中 VEGFA 诱导的血管生成失败。CDS2 的缺失也会导致动脉分化减少和血管生成信号减少。人工升高 PIP2 水平可成功挽救 CDS2 缺陷引起的表型,而过多的 PIP2 或增加的 CDS2 活性可促进过度血管生成。这些结果表明,CDS 控制的磷酸肌醇再合成的可用性对于血管生成至关重要。
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