Novel Insights into the Aortic Mechanical Properties of Mice Modeling Hereditary Aortic Diseases.

IF 5 2区 医学 Q1 HEMATOLOGY Thrombosis and haemostasis Pub Date : 2024-07-01 DOI:10.1055/s-0044-1787957
Nicolo Dubacher, Kaori Sugiyama, Jeffrey D Smith, Vanessa Nussbaumer, Máté Csonka, Szilamér Ferenczi, Krisztina J Kovács, Sylvan M Caspar, Lisa Lamberti, Janine Meienberg, Hiromi Yanagisawa, Mary B Sheppard, Gabor Matyas
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Abstract

Objective:  Hereditary aortic diseases (hADs) increase the risk of aortic dissections and ruptures. Recently, we have established an objective approach to measure the rupture force of the murine aorta, thereby explaining the outcomes of clinical studies and assessing the added value of approved drugs in vascular Ehlers-Danlos syndrome (vEDS). Here, we applied our approach to six additional mouse hAD models.

Material and methods:  We used two mouse models (Fbn1C1041G and Fbn1mgR ) of Marfan syndrome (MFS) as well as one smooth-muscle-cell-specific knockout (SMKO) of Efemp2 and three CRISPR/Cas9-engineered knock-in models (Ltbp1, Mfap4, and Timp1). One of the two MFS models was subjected to 4-week-long losartan treatment. Per mouse, three rings of the thoracic aorta were prepared, mounted on a tissue puller, and uniaxially stretched until rupture.

Results:  The aortic rupture force of the SMKO and both MFS models was significantly lower compared with wild-type mice but in both MFS models higher than in mice modeling vEDS. In contrast, the Ltbp1, Mfap4, and Timp1 knock-in models presented no impaired aortic integrity. As expected, losartan treatment reduced aneurysm formation but surprisingly had no impact on the aortic rupture force of our MFS mice.

Conclusion:  Our read-out system can characterize the aortic biomechanical integrity of mice modeling not only vEDS but also related hADs, allowing the aortic-rupture-force-focused comparison of mouse models. Furthermore, aneurysm progression alone may not be a sufficient read-out for aortic rupture, as antihypertensive drugs reducing aortic dilatation might not strengthen the weakened aortic wall. Our results may enable identification of improved medical therapies of hADs.

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对遗传性主动脉疾病模型小鼠主动脉机械特性的新认识
目的:遗传性主动脉疾病(hADs)会增加主动脉断裂和破裂的风险。最近,我们建立了一种测量小鼠主动脉破裂力的客观方法,从而解释了临床研究的结果,并评估了已批准药物在血管性埃勒斯-丹洛斯综合征(vEDS)中的附加值。在此,我们将我们的方法应用于另外六个小鼠 hAD 模型:我们使用了两个马凡综合征(MFS)小鼠模型(Fbn1C1041G 和 Fbn1mgR)以及一个平滑肌细胞特异性基因敲除(SMKO)的 Efemp2 和三个 CRISPR/Cas9 工程基因敲入模型(Ltbp1、Mfap4 和 Timp1)。两个 MFS 模型中的一个接受了为期 4 周的洛沙坦治疗。每只小鼠制备三个环状胸主动脉,安装在组织拉伸器上,单轴拉伸直至破裂:结果:与野生型小鼠相比,SMKO 和两种 MFS 模型的主动脉破裂力明显较低,但两种 MFS 模型的主动脉破裂力均高于 vEDS 模型小鼠。相比之下,Ltbp1、Mfap4 和 Timp1 基因敲入模型的主动脉完整性没有受损。正如预期的那样,洛沙坦治疗减少了动脉瘤的形成,但令人惊讶的是,它对我们的 MFS 小鼠的主动脉破裂力没有影响:结论:我们的读出系统不仅能鉴定 vEDS 模型小鼠的主动脉生物力学完整性,还能鉴定相关的 hADs 模型小鼠的主动脉生物力学完整性,从而能对小鼠模型进行以主动脉破裂力为重点的比较。此外,仅凭动脉瘤进展可能不足以判定主动脉破裂,因为降低主动脉扩张的降压药可能并不能增强减弱的主动脉壁。我们的研究结果可能有助于确定更好的主动脉瘤药物疗法。
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来源期刊
Thrombosis and haemostasis
Thrombosis and haemostasis 医学-外周血管病
CiteScore
11.90
自引率
9.00%
发文量
140
审稿时长
1 months
期刊介绍: Thrombosis and Haemostasis publishes reports on basic, translational and clinical research dedicated to novel results and highest quality in any area of thrombosis and haemostasis, vascular biology and medicine, inflammation and infection, platelet and leukocyte biology, from genetic, molecular & cellular studies, diagnostic, therapeutic & preventative studies to high-level translational and clinical research. The journal provides position and guideline papers, state-of-the-art papers, expert analysis and commentaries, and dedicated theme issues covering recent developments and key topics in the field.
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