AFM-based nanoindentation indicates an impaired cortical stiffness in the AAV-PCSK9^DY atherosclerosis mouse model.

Pflugers Archiv Pub Date : 2022-09-01 Epub Date: 2022-06-01 DOI:10.1007/s00424-022-02710-x

Leonie Achner, Tobias Klersy, Benedikt Fels, Tobias Reinberger, Cosima X Schmidt, Natalie Groß, Susanne Hille, Oliver J Müller, Zouhair Aherrahrou, Kristina Kusche-Vihrog, Walter Raasch

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Abstract

Investigating atherosclerosis and endothelial dysfunction has mainly become established in genetically modified ApoE^-/- or LDL-R^-/- mice transgenic models. A new AAV-PCSK9DY^DY mouse model with no genetic modification has now been reported as an alternative atherosclerosis model. Here, we aimed to employ this AAV-PCSK9^DY mouse model to quantify the mechanical stiffness of the endothelial surface, an accepted hallmark for endothelial dysfunction and forerunner for atherosclerosis. Ten-week-old male C57BL/6 N mice were injected with AAV-PCSK9^DY (0.5, 1 or 5 × 10¹¹ VG) or saline as controls and fed with Western diet (1.25% cholesterol) for 3 months. Total cholesterol (TC) and triglycerides (TG) were measured after 6 and 12 weeks. Aortic sections were used for atomic force microscopy (AFM) measurements or histological analysis using Oil-Red-O staining. Mechanical properties of in situ endothelial cells derived from ex vivo aorta preparations were quantified using AFM-based nanoindentation. Compared to controls, an increase in plasma TC and TG and extent of atherosclerosis was demonstrated in all groups of mice in a viral load-dependent manner. Cortical stiffness of controls was 1.305 pN/nm and increased (10%) in response to viral load (≥ 0.5 × 10¹¹ VG) and positively correlated with the aortic plaque content and plasma TC and TG. For the first time, we show changes in the mechanical properties of the endothelial surface and thus the development of endothelial dysfunction in the AAV-PCSK9^DY mouse model. Our results demonstrate that this model is highly suitable and represents a good alternative to the commonly used transgenic mouse models for studying atherosclerosis and other vascular pathologies.

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在AAV-PCSK9DY动脉粥样硬化小鼠模型中，基于afm的纳米压痕显示皮质刚度受损。

研究动脉粥样硬化和内皮功能障碍主要建立在转基因ApoE-/-或LDL-R-/-小鼠转基因模型上。一种新的无基因修饰的AAV-PCSK9DYDY小鼠模型现已被报道为一种替代的动脉粥样硬化模型。在这里，我们的目的是使用AAV-PCSK9DY小鼠模型来量化内皮表面的机械刚度，这是内皮功能障碍的公认标志，也是动脉粥样硬化的前兆。以10周龄雄性C57BL/ 6n小鼠为对照，注射AAV-PCSK9DY（0.5、1或5 × 1011 VG）或生理盐水，以西式饲料（1.25%胆固醇）喂养3个月。6周和12周后分别测定总胆固醇（TC）和甘油三酯（TG）。主动脉切片采用原子力显微镜（AFM）测量或油-红- o染色进行组织学分析。采用基于原子力显微镜的纳米压痕技术对体外主动脉制备的原位内皮细胞的力学性能进行了定量分析。与对照组相比，各组小鼠血浆TC和TG升高，动脉粥样硬化程度呈病毒载量依赖性。对照组皮质硬度为1.305 pN/nm，随着病毒载量（≥0.5 × 1011 VG）的增加而增加（10%），并与主动脉斑块含量和血浆TC、TG呈正相关。我们首次在AAV-PCSK9DY小鼠模型中显示了内皮表面力学特性的变化，从而导致内皮功能障碍的发生。我们的研究结果表明，该模型是非常合适的，代表了一个很好的替代常用的转基因小鼠模型来研究动脉粥样硬化和其他血管病变。

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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Pflugers Archiv

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