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Modulation of Smooth Muscle Cell Phenotype for Translation of Tissue-Engineered Vascular Grafts

表型 细胞外基质 翻译(生物学) 生物 组织工程 血管平滑肌 计算生物学 细胞生物学 生物信息学 平滑肌 遗传学 基因 信使核糖核酸 内分泌学
作者
Sergio A. Pineda‐Castillo,Handan Acar,Michael S. Detamore,Gerhard A. Holzapfel,Chung‐Hao Lee
出处
期刊:Tissue Engineering Part B-reviews [Mary Ann Liebert, Inc.]
卷期号:29 (5): 574-588 被引量:3
标识
DOI:10.1089/ten.teb.2023.0006
摘要

Translation of small-diameter tissue-engineered vascular grafts (TEVGs) for the treatment of coronary artery disease (CAD) remains an unfulfilled promise. This is largely due to the limited integration of TEVGs into the native vascular wall-a process hampered by the insufficient smooth muscle cell (SMC) infiltration and extracellular matrix deposition, and low vasoactivity. These processes can be promoted through the judicious modulation of the SMC toward a synthetic phenotype to promote remodeling and vascular integration; however, the expression of synthetic markers is often accompanied by a decrease in the expression of contractile proteins. Therefore, techniques that can precisely modulate the SMC phenotypical behavior could have the potential to advance the translation of TEVGs. In this review, we describe the phenotypic diversity of SMCs and the different environmental cues that allow the modulation of SMC gene expression. Furthermore, we describe the emerging biomaterial approaches to modulate the SMC phenotype in TEVG design and discuss the limitations of current techniques. In addition, we found that current studies in tissue engineering limit the analysis of the SMC phenotype to a few markers, which are often the characteristic of early differentiation only. This limited scope has reduced the potential of tissue engineering to modulate the SMC toward specific behaviors and applications. Therefore, we recommend using the techniques presented in this review, in addition to modern single-cell proteomics analysis techniques to comprehensively characterize the phenotypic modulation of SMCs. Expanding the holistic potential of SMC modulation presents a great opportunity to advance the translation of living conduits for CAD therapeutics.

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