Matrigel-encapsulated articular cartilage derived fibronectin adhesion assay derived chondroprogenitors for enhanced chondrogenic differentiation: An in vitro evaluation

IF 2.7 4区生物学 Q1 ANATOMY & MORPHOLOGY Tissue & cell Pub Date : 2024-11-26 DOI:10.1016/j.tice.2024.102638

Ganesh Parasuraman , Mariya Sneha Rani J , Merin Mary Zachariah , Abel Livingston , Elizabeth Vinod

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Abstract

Purpose

In cartilage research, three-dimensional (3D) culture models are pivotal for assessing chondrogenic differentiation potential. Standard pellet cultures, despite their utility, pose challenges like uneven differentiation and handling difficulties. This study explores the use of Matrigel, an extracellular matrix-based hydrogel, to encapsulate fibronectin adhesion assay-derived chondroprogenitors (FAA-CPs) and evaluate their chondrogenic differentiation potential.

Methods

FAA-CPs, isolated from human articular cartilage and expanded to passage 2, were either polymerized in Matrigel or cultured as standard pellets. Both groups underwent chondrogenic differentiation for 28 days and osteogenic differentiation for 21 days. Comprehensive analyses included histological staining, gene expression (SOX-9, ACAN, COL2A1 for chondrogenesis; COL1A1, RUNX2, COL10A1 for osteogenesis), and biochemical assays for glycosaminoglycans (GAG) and Collagen type II.

Results

The results demonstrated that Matrigel-encapsulated FAA-CPs achieved greater GAG accumulation, as evidenced by enhanced Alcian Blue and Safranin O staining, compared to standard pellets. However, the Collagen type II deposition, both histologically and quantitatively, was reduced in Matrigel constructs. Gene expression analysis showed no significant differences in key chondrogenic and osteogenic markers between the two groups. Despite improved handling and GAG deposition, Matrigel did not enhance uniform chondrogenic differentiation nor offer significant benefits for osteogenic differentiation, showing comparable hypertrophic markers to the standard method.

Conclusion

While Matrigel encapsulation offers advantages in handling and enhances GAG accumulation quantitatively, these benefits were not reflected in staining results. Furthermore, Matrigel did not significantly outperform standard pellet cultures in chondrogenic or osteogenic differentiation. These findings suggest a need for further refinement and in vivo validation.

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基质包膜关节软骨衍生的纤维连接蛋白粘附试验衍生的软骨祖细胞增强软骨分化：体外评估

目的在软骨研究中，三维培养模型是评估软骨分化潜力的关键。标准的颗粒培养，尽管它们很实用，但也带来了分化不均和处理困难等挑战。本研究探索了使用Matrigel，一种细胞外基质水凝胶，包封纤维连接蛋白粘附试验衍生的软骨祖细胞（FAA-CPs）并评估其软骨分化潜力。方法将fa - cps从人关节软骨中分离并扩增至传代2代，在Matrigel中聚合或培养为标准微球。两组分别进行28 d的软骨分化和21 d的成骨分化。综合分析包括组织学染色，基因表达（SOX-9， ACAN, COL2A1）软骨形成；COL1A1, RUNX2， COL10A1用于成骨)，以及糖胺聚糖（GAG）和II型胶原蛋白的生化测定。结果表明，与标准颗粒相比，matrigel包封的fa - cps具有更大的GAG积累，阿利新蓝和红花红素O染色增强。然而，在Matrigel结构中，II型胶原沉积在组织学和定量上都有所减少。基因表达分析显示，两组之间的关键软骨和成骨标志物无显著差异。尽管改进了处理和GAG沉积，但Matrigel并没有增强均匀的软骨分化，也没有为成骨分化提供显著的益处，显示出与标准方法相当的肥厚标记物。结论虽然Matrigel包封在处理和定量增加GAG积累方面具有优势，但这些优势并未反映在染色结果中。此外，Matrigel在软骨或成骨分化方面并没有明显优于标准颗粒培养。这些发现表明需要进一步完善和体内验证。

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来源期刊

Tissue & cell 医学-解剖学与形态学

CiteScore

3.90

自引率

0.00%

发文量

234

期刊介绍： Tissue and Cell is devoted to original research on the organization of cells, subcellular and extracellular components at all levels, including the grouping and interrelations of cells in tissues and organs. The journal encourages submission of ultrastructural studies that provide novel insights into structure, function and physiology of cells and tissues, in health and disease. Bioengineering and stem cells studies focused on the description of morphological and/or histological data are also welcomed. Studies investigating the effect of compounds and/or substances on structure of cells and tissues are generally outside the scope of this journal. For consideration, studies should contain a clear rationale on the use of (a) given substance(s), have a compelling morphological and structural focus and present novel incremental findings from previous literature.