Etrinabdione (VCE-004.8), a B55α activator, promotes angiogenesis and arteriogenesis in critical limb ischemia.

IF 5.3 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Applied Nano Materials Pub Date : 2024-11-06 DOI:10.1186/s12967-024-05748-w

Adela García-Martín, María E Prados, Isabel Lastres-Cubillo, Francisco J Ponce-Diaz, Laura Cerero, Martin Garrido-Rodríguez, Carmen Navarrete, Rafael Pineda, Ana B Rodríguez, Ignacio Muñoz, Javier Moya, Antonella Medeot, José A Moreno, Antonio Chacón, José García-Revillo, Eduardo Muñoz

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引用次数: 0

Abstract

Background: Vasculogenic therapies explored for the treatment of peripheral artery disease (PAD) have encountered minimal success in clinical trials. Addressing this, B55α, an isoform of protein phosphatase 2A (PP2A), emerges as pivotal in vessel remodeling through activation of hypoxia-inducible factor 1α (HIF-1α). This study delves into the pharmacological profile of VCE-004.8 (Etrinabdione) and evaluates its efficacy in a preclinical model of critical limb ischemia, with a focus on its potential as a PP2A/B55α activator to induce angiogenesis and arteriogenesis.

Methods: Vascular endothelial cells were used for in vitro experiments. Aorta ring assay was performed to explore sprouting activity. Matrigel plug-in assay was used to assess the angiogenic potential. Critical limb ischemia (CLI) in mice was induced by double ligation in the femoral arteria. Endothelial vascular and fibrotic biomarkers were studied by immunohistochemistry and qPCR. Arteriogenesis was investigated by microvascular casting and micro-CT. Proteomic analysis in vascular tissues was analyzed by LC-MS/MS. Ex-vivo expression of B55α and biomarkers were investigated in artery samples from PAD patients.

Results: VCE-004.8 exhibited the ability to induce B55α expression and activate the intersecting pathways B55α/AMPK/Sirtuin 1/eNOS and B55α/PHD2/HIF-1α. VCE-004.8 prevented OxLDL and H₂O₂-induced cytotoxicity, senescence, and inflammation in endothelial cells. Oral VCE-004.8 increased aorta sprouting in vitro and angiogenesis in vivo. In CLI mice VCE-004.8 improved collateral vessel formation and induced endothelial cells proliferation, angiogenic gene expression and prevented fibrosis. The expression of B55α, Caveolin 1 and Sirtuin-1 is reduced in arteries from CLI mice and PAD patient, and the expression of these markers was restored in mice treated with VCE-004.8.

Conclusions: The findings presented in this study indicate that Etrinabdione holds promise in mitigating endothelial cell damage and senescence, while concurrently fostering arteriogenesis and angiogenesis. These observations position Etrinabdione as a compelling candidate for the treatment of PAD, and potentially other cardiovascular disorders.

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B55α 激活剂 Etrinabdione（VCE-004.8）可促进临界肢体缺血时的血管生成和动脉生成。

背景：用于治疗外周动脉疾病（PAD）的血管生成疗法在临床试验中收效甚微。为此，蛋白磷酸酶 2A (PP2A) 的同工酶 B55α 通过激活缺氧诱导因子 1α (HIF-1α)，在血管重塑过程中发挥了关键作用。本研究深入探讨了VCE-004.8（Etrinabdione）的药理特性，并评估了它在临床前严重肢体缺血模型中的疗效，重点研究了它作为PP2A/B55α激活剂诱导血管生成和动脉生成的潜力：方法：使用血管内皮细胞进行体外实验。方法：使用血管内皮细胞进行体外实验。Matrigel 插接试验用于评估血管生成潜力。通过股动脉双结扎诱导小鼠严重肢体缺血（CLI）。通过免疫组化和 qPCR 研究了内皮血管和纤维化生物标志物。通过微血管铸造和显微 CT 对动脉生成进行了研究。通过 LC-MS/MS 对血管组织中的蛋白质组进行了分析。在 PAD 患者的动脉样本中研究了 B55α 和生物标记物的体内外表达：结果：VCE-004.8具有诱导B55α表达和激活交叉途径B55α/AMPK/Sirtuin 1/eNOS和B55α/PHD2/HIF-1α的能力。VCE-004.8 可防止 OxLDL 和 H2O2 诱导的内皮细胞细胞毒性、衰老和炎症。口服 VCE-004.8 可增加体外主动脉萌发和体内血管生成。在 CLI 小鼠中，VCE-004.8 可改善侧支血管的形成，诱导内皮细胞增殖和血管生成基因的表达，并防止纤维化。在 CLI 小鼠和 PAD 患者的动脉中，B55α、Caveolin 1 和 Sirtuin-1 的表达减少，而在接受 VCE-004.8 治疗的小鼠中，这些标记物的表达得到恢复：本研究的结果表明，Etrinabdione 有望减轻内皮细胞损伤和衰老，同时促进动脉生成和血管生成。这些观察结果表明，Etrinabdione 是治疗急性动脉粥样硬化症以及其他潜在心血管疾病的理想候选药物。

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来源期刊

ACS Applied Nano Materials Multiple-

CiteScore

8.30

自引率

3.40%

发文量

1601

期刊介绍： ACS Applied Nano Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics and biology relevant to applications of nanomaterials. The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrate knowledge in the areas of materials, engineering, physics, bioscience, and chemistry into important applications of nanomaterials.