Retinoic acid signaling in mouse retina endothelial cells is required for early angiogenic growth

IF 2.2 3区生物学 Q4 CELL BIOLOGY

Differentiation Pub Date : 2023-03-01 DOI:10.1016/j.diff.2022.12.002

Christina N. Como , Cesar Cervantes , Brad Pawlikowski , Julie Siegenthaler

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Abstract

The development of the retinal vasculature is essential to maintain health of the tissue, but the developmental mechanisms are not completely understood. The aim of this study was to investigate the cell-autonomous role of retinoic acid signaling in endothelial cells during retina vascular development. Using a temporal and cell-specific mouse model to disrupt retinoic acid signaling in endothelial cells in the postnatal retina (Pdgfb^icre/+ dnRAR403^fl/fl mutants), we discovered that angiogenesis in the retina is significantly decreased with a reduction in retina vascularization, endothelial tip cell number and filipodia, and endothelial ‘crowding’ of stalk cells. Interestingly, by P15, the vasculature can overcome the early angiogenic defect and fully vascularized the retina. At P60, the vasculature is intact with no evidence of retina cell death or altered blood retinal barrier integrity. Further, we identified that the angiogenic defect seen in mutants at P6 correlates with decreased Vegfr3 expression in endothelial cells. Collectively, our work identified a previously unappreciated function for endothelial retinoic acid signaling in early retinal angiogenesis.

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小鼠视网膜内皮细胞中的视黄酸信号是早期血管生成生长所必需的

视网膜血管系统的发育对维持组织的健康至关重要，但其发育机制尚不完全清楚。本研究的目的是研究维甲酸信号在视网膜血管发育过程中在内皮细胞中的细胞自主作用。使用时间和细胞特异性小鼠模型破坏出生后视网膜内皮细胞中的视黄酸信号传导（Pdgfbicre/+dnRAR403fl/fl突变体），我们发现视网膜中的血管生成显著减少，视网膜血管形成、内皮顶端细胞数量和丝状足减少，以及干细胞的内皮“拥挤”。有趣的是，通过P15，血管系统可以克服早期血管生成缺陷，并使视网膜完全血管化。在P60，脉管系统是完整的，没有视网膜细胞死亡或血-视网膜屏障完整性改变的证据。此外，我们确定在P6突变体中观察到的血管生成缺陷与内皮细胞中Vegfr3表达降低相关。总之，我们的工作确定了内皮视黄酸信号在早期视网膜血管生成中的一种以前未被重视的功能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Differentiation 生物-发育生物学

CiteScore

4.10

自引率

3.40%

发文量

审稿时长

51 days

期刊介绍： Differentiation is a multidisciplinary journal dealing with topics relating to cell differentiation, development, cellular structure and function, and cancer. Differentiation of eukaryotes at the molecular level and the use of transgenic and targeted mutagenesis approaches to problems of differentiation are of particular interest to the journal. The journal will publish full-length articles containing original work in any of these areas. We will also publish reviews and commentaries on topics of current interest. The principal subject areas the journal covers are: • embryonic patterning and organogenesis • human development and congenital malformation • mechanisms of cell lineage commitment • tissue homeostasis and oncogenic transformation • establishment of cellular polarity • stem cell differentiation • cell reprogramming mechanisms • stability of the differentiated state • cell and tissue interactions in vivo and in vitro • signal transduction pathways in development and differentiation • carcinogenesis and cancer • mechanisms involved in cell growth and division especially relating to cancer • differentiation in regeneration and ageing • therapeutic applications of differentiation processes.