1Trinity Centre for Bioengineering, Trinity Biomedical Sciences Institute, Trinity College Dublin, Ireland.
Eur Cell Mater. 2012 Feb 23;23:121-32; discussion 133-4. doi: 10.22203/ecm.v023a09.
Hydrostatic pressure (HP) is a key component of the in vivo joint environment and has been shown to enhance chondrogenesis of stem cells. The objective of this study was to investigate the interaction between HP and TGF-β3 on both the initiation and maintenance of a chondrogenic phenotype for joint tissue derived stem cells. Pellets generated from porcine chondrocytes (CCs), synovial membrane derived stem cells (SDSCs) and infrapatellar fat pad derived stem cells (FPSCs) were subjected to 10 MPa of cyclic HP (4 h/day) and different concentrations of TGF-β3 (0, 1 and 10 ng/mL) for 14 days. CCs and stem cells were observed to respond differentially to both HP and TGF-β3 stimulation. HP in the absence of TGF-β3 did not induce robust chondrogenic differentiation of stem cells. At low concentrations of TGF-β3 (1 ng/mL), HP acted to enhance chondrogenesis of both SDSCs and FPSCs, as evident by a 3-fold increase in Sox9 expression and a significant increase in glycosaminoglycan accumulation. In contrast, HP had no effect on cartilage-specific matrix synthesis at higher concentrations of TGF-β3 (10 ng/mL). Critically, HP appears to play a key role in the maintenance of a chondrogenic phenotype, as evident by a down-regulation of the hypertrophic markers type X collagen and Indian hedgehog in SDSCs irrespective of the cytokine concentration. In the context of stem cell based therapies for cartilage repair, this study demonstrates the importance of considering how joint specific environmental factors interact to regulate not only the initiation of chondrogenesis, but also the development of a stable hyaline-like repair tissue.
静水压力(HP)是体内关节环境的关键组成部分,已被证明可增强干细胞的软骨生成。本研究的目的是研究 HP 与 TGF-β3 之间的相互作用,以研究关节组织来源的干细胞的起始和维持软骨形成表型。从猪软骨细胞(CC)、滑膜膜衍生干细胞(SDSC)和髌下脂肪垫衍生干细胞(FPSC)生成的微球分别接受 10 MPa 的循环 HP(每天 4 小时)和不同浓度的 TGF-β3(0、1 和 10ng/ml)处理 14 天。观察到 CC 和干细胞对 HP 和 TGF-β3 刺激的反应不同。在没有 TGF-β3 的情况下,HP 不会诱导干细胞产生强烈的软骨分化。在低浓度的 TGF-β3(1ng/ml)下,HP 增强了 SDSC 和 FPSC 的软骨生成,Sox9 表达增加了 3 倍,糖胺聚糖积累显著增加。相比之下,在较高浓度的 TGF-β3(10ng/ml)下,HP 对软骨特异性基质合成没有影响。至关重要的是,HP 似乎在维持软骨形成表型方面起着关键作用,这表现在 SDSC 中无论细胞因子浓度如何,肥大标志物 X 型胶原和印度刺猬的下调。在基于干细胞的软骨修复治疗的背景下,本研究表明考虑关节特定环境因素如何相互作用以调节不仅软骨生成的起始,而且还调节稳定的透明软骨样修复组织的发育的重要性。
