TNF-α Preconditioning Promotes a Proangiogenic Phenotype in hiPSC-Derived Vascular Smooth Muscle Cells.

IF 2.3 4区 医学 Q3 BIOPHYSICS Cellular and molecular bioengineering Pub Date : 2023-04-08 eCollection Date: 2023-06-01 DOI:10.1007/s12195-023-00764-0
Daniel C Sasson, Sara Islam, Kaiti Duan, Biraja C Dash, Henry C Hsia
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Abstract

Introduction: hiPSC-VSMCs have been suggested as therapeutic agents for wound healing and revascularization through the secretion of proangiogenic factors. However, methods of increasing cell paracrine secretion and survivability have thus far yielded inconsistent results. This study investigates the effect of pre-conditioning of hiPSC-VSMCs with TNF-α and their integration into 3D collagen scaffolds on cellular viability and secretome.

Methods: hiPSC-VSMCs were dual-plated in a 2D environment. TNF-α was introduced to one plate. Following incubation, cells from each plate were divided and added to type-I collagen scaffolds. TNF-α was introduced to two sets of scaffolds, one from each 2D plate. Following incubation, scaffolds were harvested for their media, tested for cell survivability, cytotoxicity, and imaged. Intra-media VEGF and bFGF levels were evaluated using ELISA testing.

Results: hiPSC-VSMCs exposed to TNF-α during collagen scaffold proliferation and preconditioning showed an increase in cell viability and less cytotoxicity compared to non-exposed cells and solely-preconditioned cells. Significant increases in bFGF expression were found in pre-conditioned cell groups with further increases found in cells subsequently exposed during intra-scaffold conditioning. A significant increase in VEGF expression was found in cell groups exposed during both pre-conditioning and intra-scaffold conditioning. Fibroblasts treated with any conditioned media demonstrated increased migration potential.

Conclusions: Conditioning hiPSC-VSMCs embedded in scaffolds with TNF-α improves cellular viability and increases the secretion of paracrine factors necessary for wound healing mechanisms such as migration.

Supplementary information: The online version contains supplementary material available at 10.1007/s12195-023-00764-0.

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TNF-α预处理促进hiPSC衍生的血管平滑肌细胞的促血管生成表型。
引言:hiPSC VSMCs已被认为是通过分泌促血管生成因子来进行伤口愈合和血运重建的治疗剂。然而,迄今为止,增加细胞旁分泌和生存能力的方法产生了不一致的结果。本研究探讨了用TNF-α预处理hiPSC VSMCs及其整合到3D胶原支架中对细胞活力和分泌组的影响。方法:在2D环境中对hiPSC VSMCs进行双重铺板。将TNF-α引入一块板中。孵育后,将来自每个板的细胞分开并加入I型胶原支架中。将TNF-α引入两组支架中,每组2D板一个。孵育后,收获支架作为其培养基,测试细胞存活率、细胞毒性并成像。使用ELISA测试评估培养基内VEGF和bFGF水平。结果:与未暴露的细胞和单独预处理的细胞相比,在胶原支架增殖和预处理过程中暴露于TNF-α的hiPSC VSMCs显示出细胞活力增加和细胞毒性降低。在预处理的细胞组中发现bFGF表达显著增加,在随后暴露于支架内处理的细胞中发现进一步增加。在预处理和支架内处理期间暴露的细胞组中发现VEGF表达显著增加。用任何条件培养基处理的成纤维细胞显示出增加的迁移潜力。结论:用TNF-α调节包埋在支架中的hiPSC VSMCs可以提高细胞活力,并增加伤口愈合机制(如迁移)所需的旁分泌因子的分泌。补充信息:在线版本包含补充材料,可访问10.1007/s12195-023-00764-0。
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来源期刊
CiteScore
5.60
自引率
3.60%
发文量
30
审稿时长
>12 weeks
期刊介绍: The field of cellular and molecular bioengineering seeks to understand, so that we may ultimately control, the mechanical, chemical, and electrical processes of the cell. A key challenge in improving human health is to understand how cellular behavior arises from molecular-level interactions. CMBE, an official journal of the Biomedical Engineering Society, publishes original research and review papers in the following seven general areas: Molecular: DNA-protein/RNA-protein interactions, protein folding and function, protein-protein and receptor-ligand interactions, lipids, polysaccharides, molecular motors, and the biophysics of macromolecules that function as therapeutics or engineered matrices, for example. Cellular: Studies of how cells sense physicochemical events surrounding and within cells, and how cells transduce these events into biological responses. Specific cell processes of interest include cell growth, differentiation, migration, signal transduction, protein secretion and transport, gene expression and regulation, and cell-matrix interactions. Mechanobiology: The mechanical properties of cells and biomolecules, cellular/molecular force generation and adhesion, the response of cells to their mechanical microenvironment, and mechanotransduction in response to various physical forces such as fluid shear stress. Nanomedicine: The engineering of nanoparticles for advanced drug delivery and molecular imaging applications, with particular focus on the interaction of such particles with living cells. Also, the application of nanostructured materials to control the behavior of cells and biomolecules.
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