Autoinduction-Based Quantification of In Situ TGF-β Activity in Native and Engineered Cartilage.

IF 2.7 4区医学 Q3 CELL & TISSUE ENGINEERING Tissue engineering. Part C, Methods Pub Date : 2024-10-09 DOI:10.1089/ten.TEC.2024.0190

Tianbai Wang, Sung Yeon Kim, Yifan Peng, Jane Zheng, Matthew D Layne, Joanne E Murphy-Ullrich, Michael B Albro

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Abstract

Transforming growth factor beta (TGF-β) is a potent growth factor that regulates the homeostasis of native cartilage and is administered as an anabolic supplement for engineered cartilage growth. The quantification of TGF-β activity in live tissues in situ remains a significant challenge, as conventional activity assessments (e.g., Western blotting of intracellular signaling molecules or reporter cell assays) are unable to measure absolute levels of TGF-β activity in three-dimensional tissues. In this study, we develop a quantification platform established on TGF-β's autoinduction response, whereby active TGF-β (aTGF-β) signaling in cells induces their biosynthesis and secretion of new TGF-β in its latent form (LTGF-β). As such, cell-secreted LTGF-β can serve as a robust, non-destructive, label-free biomarker for quantifying in situ activity of TGF-β in live cartilage tissues. Here, we detect LTGF-β1 secretion levels for bovine native tissue explants and engineered tissue constructs treated with varying doses of media-supplemented aTGF-β3 using an isoform-specific ELISA. We demonstrate that: 1) LTGF-β secretion levels increase proportionally to aTGF-β exposure, reaching 7.4- and 6.6-fold increases in native and engineered cartilage, respectively; 2) synthesized LTGF-β exhibits low retention in both native and engineered cartilage tissue; and 3) secreted LTGF-β is stable in conditioned media for 2 weeks, thus enabling a reliable biological standard curve between LTGF-β secretion and exposed TGF-β activity. Accordingly, we perform quantifications of TGF-β activity in bovine native cartilage, demonstrating up to 0.59 ng/mL in response to physiological dynamic loading. We further quantify the in situ TGF-β activity in aTGF-β-conjugated scaffolds for engineered tissue, which exhibits 1.81 ng/mL of TGF-β activity as a result of a nominal 3 μg/mL loading dose. Overall, cell-secreted LTGF-β can serve as a robust biomarker to quantify in situ activity of TGF-β in live cartilage tissue and can be potentially applied for a wide range of applications, including multiple tissue types and tissue engineering platforms with different cell populations and scaffolds.

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基于自诱导的原生软骨和工程软骨原位 TGF-β 活性定量分析

转化生长因子β（TGF-β）是一种强效生长因子，可调节原生软骨的平衡，并可作为工程软骨生长的同化补充剂。由于传统的活性评估方法（如细胞内信号分子的 Western 印迹法或报告细胞检测法）无法测量三维组织中 TGF-β 活性的绝对水平，因此原位量化活组织中的 TGF-β 活性仍是一项重大挑战。在这项研究中，我们开发了一个基于 TGF-β 自身诱导反应的量化平台，即细胞中活跃的 TGF-β （aTGF-β）信号诱导其生物合成并分泌新的潜伏形式的 TGF-β（LTGF-β）。因此，细胞分泌的 LTGF-β 可作为一种稳健、非样品破坏性、无标记的生物标记物，用于量化活体软骨组织中 TGF-β 的原位活性。在这里，我们使用同工酶链式特异性酶联免疫吸附试验（isoform-specific ELISA）检测了经不同剂量介质添加 aTGF-β3 处理的牛原生组织外植体和工程组织构建体的 LTGF-β1 分泌水平。我们证明1）LTGF-β分泌水平与aTGF-β暴露成比例增加，在原生软骨和工程软骨中分别增加了7.4倍和6.6倍；2）合成的LTGF-β在原生软骨和工程软骨组织中的保留率都很低；3）分泌的LTGF-β在条件培养基中稳定2周，因此可以在LTGF-β分泌和暴露的TGF-β活性之间建立可靠的生物标准曲线。因此，我们对牛原生软骨中的 TGF-β 活性进行了量化，结果表明在生理动态负荷下，TGF-β 活性可达 0.59 ng/mL。我们进一步量化了用于工程组织的 TGF-β 共轭支架中的原位 TGF-β 活性，根据自体诱导标准曲线计算，其 TGF-β 活性高达 1.81 纳克/毫升。总之，细胞分泌的 LTGF-β 可作为一种可靠的生物标记物，用于量化活体软骨组织中 TGF-β 的原位活性，并有可能应用于多种应用，包括多种原生组织类型以及具有不同细胞群和支架的组织工程平台。

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来源期刊

Tissue engineering. Part C, Methods Medicine-Medicine (miscellaneous)

CiteScore

5.10

自引率

3.30%

发文量

136

期刊介绍： Tissue Engineering is the preeminent, biomedical journal advancing the field with cutting-edge research and applications that repair or regenerate portions or whole tissues. This multidisciplinary journal brings together the principles of engineering and life sciences in the creation of artificial tissues and regenerative medicine. Tissue Engineering is divided into three parts, providing a central forum for groundbreaking scientific research and developments of clinical applications from leading experts in the field that will enable the functional replacement of tissues. Tissue Engineering Methods (Part C) presents innovative tools and assays in scaffold development, stem cells and biologically active molecules to advance the field and to support clinical translation. Part C publishes monthly.