Modulation of angiopoietin-2 and Tie2: Organ specific effects of microvascular leakage and edema in mice

IF 2.9 4区医学 Q2 PERIPHERAL VASCULAR DISEASE Microvascular research Pub Date : 2024-05-08 DOI:10.1016/j.mvr.2024.104694

Anoek L.I. van Leeuwen , Nicole A.M. Dekker , Roselique Ibelings , Anita M. Tuip-de Boer , Matijs van Meurs , Grietje Molema , Charissa E. van den Brom

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Abstract

Introduction

Critical illness is associated with organ failure, in which endothelial hyperpermeability and tissue edema play a major role. The endothelial angiopoietin/Tie2 system, a regulator of endothelial permeability, is dysbalanced during critical illness. Elevated circulating angiopoietin-2 and decreased Tie2 receptor levels are reported, but it remains unclear whether they cause edema independent of other critical illness-associated alterations. Therefore, we have studied the effect of angiopoietin-2 administration and/or reduced Tie2 expression on microvascular leakage and edema under normal conditions.

Methods

Transgenic male mice with partial deletion of Tie2 (heterozygous exon 9 deletion, Tie2^+/−) and wild-type controls (Tie2^+/+) received 24 or 72 pg/g angiopoietin-2 or PBS as control (n = 12 per group) intravenously. Microvascular leakage and edema were determined by Evans blue dye (EBD) extravasation and wet-to-dry weight ratio, respectively, in lungs and kidneys. Expression of molecules related to endothelial angiopoietin/Tie2 signaling were determined by ELISA and RT-qPCR.

Results

In Tie2^+/+ mice, angiopoietin-2 administration increased EBD extravasation (154 %, p < 0.05) and wet-to-dry weight ratio (133 %, p < 0.01) in lungs, but not in the kidney compared to PBS.

Tie2^+/− mice had higher pulmonary (143 %, p < 0.001), but not renal EBD extravasation, compared to wild-type control mice, whereas a more pronounced wet-to-dry weight ratio was observed in lungs (155 %, p < 0.0001), in contrast to a minor higher wet-to-dry weight ratio in kidneys (106 %, p < 0.05).

Angiopoietin-2 administration to Tie2^+/− mice did not further increase pulmonary EBD extravasation, pulmonary wet-to-dry weight ratio, or renal wet-to-dry weight ratio. Interestingly, angiopoietin-2 administration resulted in an increased renal EBD extravasation in Tie2^+/− mice compared to Tie2^+/− mice receiving PBS. Both angiopoietin-2 administration and partial deletion of Tie2 did not affect circulating angiopoietin-1, soluble Tie2, VEGF and NGAL as well as gene expression of angiopoietin-1, −2, Tie1, VE-PTP, ELF-1, Ets-1, KLF2, GATA3, MMP14, Runx1, VE-cadherin, VEGFα and NGAL, except for gene and protein expression of Tie2, which was decreased in Tie2^+/− mice compared to Tie2^+/+ mice.

Conclusions

In mice, the microvasculature of the lungs is more vulnerable to angiopoietin-2 and partial deletion of Tie2 compared to those in the kidneys with respect to microvascular leakage and edema.

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血管生成素-2 和 Tie2 的调节作用：对小鼠微血管渗漏和水肿的器官特异性影响

导言危重病与器官衰竭有关，其中内皮高渗透性和组织水肿起着重要作用。内皮血管生成素/Tie2 系统是内皮通透性的调节器，在危重病期间会失衡。据报道，循环血管生成素-2 升高和 Tie2 受体水平降低会导致水肿，但它们是否独立于其他危重病相关改变而引起水肿，目前仍不清楚。因此，我们研究了在正常情况下，血管生成素-2的给药和/或Tie2表达减少对微血管渗漏和水肿的影响：方法：部分缺失 Tie2 的转基因雄性小鼠（杂合子外显子 9 缺失，Tie2+/-）和野生型对照组（Tie2+/+）静脉注射 24 或 72 pg/g 血管生成素-2 或 PBS 作为对照（每组 n = 12）。肺和肾脏的微血管渗漏和水肿分别通过埃文斯蓝染料（EBD）外渗和干湿重量比来测定。通过 ELISA 和 RT-qPCR 测定与内皮血管生成素/Tie2 信号转导相关的分子的表达：结果：在 Tie2+/+ 小鼠中，给予血管生成素-2 会增加 EBD 外渗（154%，p +/- 小鼠的肺 EBD 外渗更高（143%，p +/- 小鼠没有进一步增加肺 EBD 外渗、肺干湿重量比或肾干湿重量比）。有趣的是，与接受 PBS 的 Tie2+/- 小鼠相比，给予血管生成素-2 会导致 Tie2+/- 小鼠肾脏 EBD 外渗增加。给予血管生成素-2 和部分缺失 Tie2 不会影响循环中的血管生成素-1、可溶性 Tie2、血管内皮生长因子和 NGAL 以及血管生成素-1、-2、Tie1、VE-PTP、ELF-1、Ets-1、KLF2、GATA3、MMP14、Runx1、VE-cadherin、VEGFα 和 NGAL 的基因表达，但 Tie2 的基因和蛋白表达除外，与 Tie2+/+ 小鼠相比，Tie2+/- 小鼠的基因和蛋白表达有所下降：结论：与肾脏微血管渗漏和水肿相比，小鼠肺部微血管更容易受到血管生成素-2 和 Tie2 部分缺失的影响。

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来源期刊

Microvascular research 医学-外周血管病

CiteScore

6.00

自引率

3.20%

发文量

158

审稿时长

43 days

期刊介绍： Microvascular Research is dedicated to the dissemination of fundamental information related to the microvascular field. Full-length articles presenting the results of original research and brief communications are featured. Research Areas include: • Angiogenesis • Biochemistry • Bioengineering • Biomathematics • Biophysics • Cancer • Circulatory homeostasis • Comparative physiology • Drug delivery • Neuropharmacology • Microvascular pathology • Rheology • Tissue Engineering.