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Sema3E 缺陷型小鼠的背主动脉缺陷模式的解决是通过血管生成重塑发生的。

Resolution of defective dorsal aortae patterning in Sema3E-deficient mice occurs via angiogenic remodeling.

机构信息

Department of Molecular Biology, University of Texas Southwestern Medical Center, Dallas, Texas 75390-9148, USA.

出版信息

Dev Dyn. 2013 May;242(5):580-90. doi: 10.1002/dvdy.23949. Epub 2013 Mar 29.

DOI:10.1002/dvdy.23949
PMID:23444297
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4374655/
Abstract

BACKGROUND

Neuronal guidance cues influence endothelial cell (EC) behavior to shape the embryonic vascular system. The repulsive neuronal guidance cue, Semaphorin 3E (Sema3E), is critical for creating avascular zones that instruct and subsequently pattern the first embryonic vessels, the paired dorsal aortae (DA). Sema3E(-) (/) (-) embryos develop highly branched plexus-like vessels during vasculogenesis, instead of smooth paired vessels. Unexpectedly, despite these severe DA patterning defects, mutant mice are viable throughout adulthood.

RESULTS

Examination of Sema3E(-) (/) (-) mice reveals that the plexus-like DA resolve into single, unbranched vessels between embryonic day (E) E8.25 and E8.75. Although fusion of Sema3E(-) (/) (-) DA occurs slightly earlier than in heterozygotes, the DA are otherwise indistinguishable, suggesting a complete "rescue" in their development. Resolution of the DA null plexuses occurs by remodeling rather than by means of changes in cell proliferation or death.

CONCLUSIONS

Normalization of Sema3E(-) (/) (-) DA patterning defects demonstrates resilience of embryonic vascular patterning programs. Additional repulsive guidance cues within the lateral plate mesoderm likely re-establish avascular zones lost in Sema3E(-) (/) (-) embryos and guide resolution of mutant plexus into branchless, parallel aortae. Our observations explain how Sema3E(-) (/) (-) mice survive throughout development and into adulthood, despite severe initial vascular defects.

摘要

背景

神经元导向线索影响内皮细胞(EC)的行为,从而塑造胚胎血管系统。排斥性神经元导向线索 Sema3E(Semaphorin 3E)对于创建无血管区至关重要,该区域可以指导并随后形成第一个胚胎血管,即成对的背主动脉(DA)。Sema3E(-)(/)(-)胚胎在血管生成过程中发育出高度分支的丛状血管,而不是光滑的成对血管。出乎意料的是,尽管存在这些严重的 DA 形态缺陷,突变小鼠在整个成年期仍具有活力。

结果

对 Sema3E(-)(/)(-)小鼠的检查表明,丛状 DA 在胚胎第 8.25 天至第 8.75 天之间会分解为单个、无分支的血管。尽管 Sema3E(-)(/)(-)DA 的融合发生得略早于杂合子,但 DA 否则没有区别,表明其发育完全“恢复正常”。DA 缺失丛的分辨率是通过重塑而不是通过细胞增殖或死亡的变化来实现的。

结论

Sema3E(-)(/)(-)DA 形态缺陷的正常化表明胚胎血管形态发生程序具有弹性。侧中胚层中其他排斥性导向线索可能会重新建立在 Sema3E(-)(/)(-)胚胎中丢失的无血管区,并引导突变丛状血管形成无分支的平行主动脉。我们的观察结果解释了为什么 Sema3E(-)(/)(-)小鼠尽管存在严重的初始血管缺陷,但仍能在整个发育过程和成年期存活。

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