Institute for Developmental and Regenerative Cardiovascular Medicine, Xinhua Hospital, School of Medicine, Shanghai Jiao Tong University, Shanghai, 200092, China.
Department of Stomatology, Shidong Hospital of Yangpu District, Shanghai, 200438, China.
J Mol Med (Berl). 2023 Dec;101(12):1567-1585. doi: 10.1007/s00109-023-02377-6. Epub 2023 Oct 7.
The ductus arteriosus (DA), bridging the aorta and pulmonary artery, immediately starts closing after birth. Remodeling of DA leads to anatomic obstruction to prevent repatency. Several histological changes, especially extracellular matrices (ECMs) deposition and smooth muscle cells (SMCs) migration bring to anatomic closure. The genetic etiology and mechanism of DA closure remain elusive. We have previously reported a novel copy number variant containing Vav2 in patent ductus arteriosus (PDA) patients, but its specific role in DA closure remains unknown. The present study revealed that the expression of Vav2 was reduced in human patent DA, and it was less enrichment in the adjacent aorta. Matrigel experiments demonstrated that Vav2 could promote SMC migration from PDA patient explants. Smooth muscle cells with Vav2 overexpression also presented an increased capacity in migration and downregulated contractile-related proteins. Meanwhile, SMCs with Vav2 overexpression exhibited higher expression of collagen III and lessened protein abundance of lysyl oxidase, and both changes are beneficial to DA remodeling. Overexpression of Vav2 resulted in increased activity of Rac1, Cdc42, and RhoA in SMCs. Further investigation noteworthily found that the above alterations caused by Vav2 overexpression were particularly reversed by Rac1 inhibitor. A heterozygous, rare Vav2 variant was identified in PDA patients. Compared with the wild type, this variant attenuated Vav2 protein expression and weakened the activation of downstream Rac1, further impairing its functions in SMCs. In conclusion, Vav2 functions as an activator for Rac1 in SMCs to promote SMCs migration, dedifferentiation, and ECMs production. Deleterious variant potentially induces Vav2 loss of function, further providing possible molecular mechanisms about Vav2 in PDA pathogenesis. These findings enriched the current genetic etiology of PDA, which may provide a novel target for prenatal diagnosis and treatment. KEY MESSAGES: Although we have proposed the potential association between Vav2 and PDA incidence through whole exome sequencing, the molecular mechanisms underlying Vav2 in PDA have never been reported. This work, for the first time, demonstrated that Vav2 was exclusively expressed in closed DAs. Moreover, we found that Vav2 participated in the process of anatomic closure by mediating SMCs migration, dedifferentiation, and ECMs deposition through Rac1 activation. Our findings first identified a deleterious Vav2 c.701C>T variant that affected its function in SMCs by impairing Rac1 activation, which may lead to PDA defect. Vav2 may become an early diagnosis and an effective intervention target for PDA clinical therapy.
动脉导管(DA)连接主动脉和肺动脉,出生后立即开始关闭。DA 的重塑导致解剖学阻塞以防止再通。几种组织学变化,尤其是细胞外基质(ECM)沉积和平滑肌细胞(SMC)迁移,导致解剖学闭合。DA 关闭的遗传病因和机制仍不清楚。我们之前报道了一种包含 Vav2 的新拷贝数变异体在动脉导管未闭(PDA)患者中,但它在 DA 关闭中的具体作用尚不清楚。本研究表明,Vav2 在人开放性 DA 中的表达减少,在相邻主动脉中的富集度较低。Matrigel 实验表明,Vav2 可促进 PDA 患者外植体中 SMC 的迁移。过表达 Vav2 的平滑肌细胞也表现出更高的迁移能力和下调的收缩相关蛋白。同时,过表达 Vav2 的 SMC 表现出更高的 III 型胶原表达和更少的赖氨酰氧化酶蛋白丰度,这两种变化都有利于 DA 重塑。Vav2 的过表达导致 SMC 中 Rac1、Cdc42 和 RhoA 的活性增加。进一步的研究值得注意的是,Vav2 过表达引起的上述变化被 Rac1 抑制剂特别逆转。在 PDA 患者中发现了一种杂合的、罕见的 Vav2 变体。与野生型相比,该变体减弱了 Vav2 蛋白表达,并削弱了下游 Rac1 的激活,进一步损害了其在 SMC 中的功能。总之,Vav2 作为 SMC 中 Rac1 的激活剂,促进 SMC 的迁移、去分化和 ECM 产生。有害变异可能导致 Vav2 丧失功能,进一步提供 Vav2 在 PDA 发病机制中的可能分子机制。这些发现丰富了 PDA 的现有遗传病因学,为产前诊断和治疗提供了新的可能靶点。关键信息:尽管我们通过全外显子组测序提出了 Vav2 与 PDA 发生率之间的潜在关联,但 Vav2 在 PDA 中的分子机制从未被报道过。这项工作首次证明,Vav2 仅在闭合的 DAs 中表达。此外,我们发现 Vav2 通过激活 Rac1 介导 SMCs 迁移、去分化和 ECM 沉积,参与解剖学闭合过程。我们的研究结果首次发现了一种有害的 Vav2 c.701C>T 变体,该变体通过损害 Rac1 激活来影响其在 SMCs 中的功能,这可能导致 PDA 缺陷。Vav2 可能成为 PDA 临床治疗的早期诊断和有效干预靶点。
