Department of Chemical and Biomedical Engineering, Cleveland State University, Cleveland, OH, 44141, USA.
University of Lille, Inserm U1167, Institut Pasteur de Lille, France.
Exp Cell Res. 2019 Nov 1;384(1):111589. doi: 10.1016/j.yexcr.2019.111589. Epub 2019 Aug 29.
Abdominal aortic aneurysms (AAA) are characterized by matrix remodeling, elastin degradation, absence of nitric oxide (NO) signaling, and inflammation, influencing smooth muscle cell (SMC) phenotype and gene expression. Little is known about the biomolecular release and intrinsic biomechanics of human AAA-SMCs. NO delivery could be an attractive therapeutic strategy to restore lost functionality of AAA-SMCs by inhibiting inflammation and cell stiffening. We aim to establish the differences in phenotype and gene expression of adult human AAA-SMCs from healthy SMCs. Based on our previous study which showed benefits of optimal NO dosage delivered via S-Nitrosoglutathione (GSNO) to healthy aortic SMCs, we tested whether such benefits would occur in AAA-SMCs. The mRNA expression of three genes involved in matrix degradation (ACE, ADAMTS5 and ADAMTS8) was significantly downregulated in AAA-SMCs. Total protein and glycosaminoglycans synthesis were higher in AAA-SMCs than healthy-SMCs (p < 0.05 for AAA-vs. healthy- SMC cultures) and was enhanced by GSNO and 3D cultures (p < 0.05 for 3D vs. 2D cultures; p < 0.05 for GSNO vs. non-GSNO cases). Elastin gene expression, synthesis and deposition, desmosine crosslinker levels, and lysyl oxidase (LOX) functional activity were lower, while cell proliferation, iNOS, LOX and fibrillin-1 gene expressions were higher in AAA-SMCs (p < 0.05 between respective cases), with differential benefits from GSNO exposure. GSNO and 3D cultures reduced MMPs -2, -9, and increased TIMP-1 release in AAA-SMC cultures (p < 0.05 for GSNO vs. non-GSNO cultures). AAA-SMCs were inherently stiffer and had smoother surface than healthy SMCs (p < 0.01 in both cases), but GSNO reduced stiffness (~25%; p < 0.01) and increased roughness (p < 0.05) of both cell types. In conclusion, exogenously-delivered NO offers an attractive strategy by providing therapeutic benefits to AAA-SMCs.
腹主动脉瘤(AAA)的特征是基质重塑、弹性蛋白降解、缺乏一氧化氮(NO)信号以及炎症,影响平滑肌细胞(SMC)的表型和基因表达。目前对于人 AAA-SMC 的生物分子释放和内在生物力学特性知之甚少。通过抑制炎症和细胞僵硬,NO 输送可能是恢复 AAA-SMC 失去功能的有吸引力的治疗策略。我们旨在建立健康 SMC 与成人 AAA-SMC 在表型和基因表达上的差异。基于我们之前的研究表明,通过 S-亚硝基谷胱甘肽(GSNO)输送最佳 NO 剂量对健康主动脉 SMC 有益,我们测试了这种益处是否会发生在 AAA-SMC 中。三个参与基质降解的基因(ACE、ADAMTS5 和 ADAMTS8)的 mRNA 表达在 AAA-SMC 中显著下调。AAA-SMC 的总蛋白和糖胺聚糖合成均高于健康-SMC(AAA-SMC 培养物与健康-SMC 培养物相比,p<0.05;3D 培养物与 2D 培养物相比,p<0.05;GSNO 与非-GSNO 情况下相比,p<0.05),并通过 GSNO 和 3D 培养得到增强。弹性蛋白基因表达、合成和沉积、desmosine 交联水平和赖氨酰氧化酶(LOX)功能活性降低,而 AAA-SMC 中的细胞增殖、iNOS、LOX 和原纤维蛋白-1 基因表达升高(各自情况下的 p<0.05),并从 GSNO 暴露中获得不同的益处。GSNO 和 3D 培养物减少了 AAA-SMC 培养物中 MMP-2、-9 的释放,增加了 TIMP-1 的释放(GSNO 与非-GSNO 培养物相比,p<0.05)。AAA-SMC 比健康 SMC 更硬且表面更光滑(两种情况均 p<0.01),但 GSNO 降低了两种细胞类型的刚性(~25%;p<0.01)并增加了粗糙度(p<0.05)。总之,外源性 NO 提供了一种有吸引力的策略,通过为 AAA-SMC 提供治疗益处。
