转化生长因子-β1和流体静压力对接种半月板细胞的支架的影响。

Effects of TGF-beta1 and hydrostatic pressure on meniscus cell-seeded scaffolds.

作者信息

Gunja Najmuddin J, Uthamanthil Rajesh K, Athanasiou Kyriacos A

机构信息

Department of Bioengineering, Rice University, MS-142, P.O. Box 1892, Houston, TX 77251-1892, USA.

出版信息

Biomaterials. 2009 Feb;30(4):565-73. doi: 10.1016/j.biomaterials.2008.10.007. Epub 2008 Nov 5.

DOI:10.1016/j.biomaterials.2008.10.007

PMID:18980779

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2637152/

Abstract

The combinatorial effects of TGF-beta1 and hydrostatic pressure (HP) were investigated on meniscus cell-seeded PLLA constructs using a two-phase sequential study. The objective was to identify potentially synergistic effects of these stimuli toward enhancing the biomechanical and compositional characteristics of the engineered constructs. In Phase I, the effects of TGF-beta1 were examined on the ability of meniscus cells to produce ECM. In Phase II, meniscus cell-seeded PLLA constructs were cultured for 4 wks with a combination of TGF-beta1 and HP (10 MPa, 0 Hz or 10 MPa, 0.1 Hz). TGF-beta1 was found to increase collagen and GAG deposition in the scaffolds 15-fold and 8-fold, respectively, in Phase I. In Phase II, the combination of TGF-beta1 and 10 MPa, 0 Hz HP resulted in 4-fold higher collagen deposition (additive increase), 3-fold higher GAG deposition and enhanced compressive properties (additive and synergistic increases), when compared to the unpressurized no growth factor culture control. Though significant correlations were observed between the compressive properties (moduli and viscosity), and the GAG and collagen content of the constructs, the correlations were stronger with collagen. This study provides robust evidence that growth factors and HP can be used successfully in combination to enhance the functional properties of in vitro engineered knee meniscus constructs.

摘要

采用两阶段序贯研究，研究了转化生长因子β1（TGF-β1）和静水压力（HP）对接种半月板细胞的聚乳酸（PLLA）构建体的联合作用。目的是确定这些刺激因素对增强工程构建体的生物力学和成分特征的潜在协同作用。在第一阶段，研究了TGF-β1对半月板细胞产生细胞外基质（ECM）能力的影响。在第二阶段，将接种半月板细胞的PLLA构建体与TGF-β1和HP（10兆帕，0赫兹或10兆帕，0.1赫兹）联合培养4周。在第一阶段，发现TGF-β1分别使支架中的胶原蛋白和糖胺聚糖（GAG）沉积增加了15倍和8倍。在第二阶段，与未加压且无生长因子的培养对照相比，TGF-β1与10兆帕、0赫兹的HP联合使用导致胶原蛋白沉积增加4倍（相加增加）、GAG沉积增加3倍以及压缩性能增强（相加和协同增加）。尽管观察到构建体的压缩性能（模量和粘度）与GAG和胶原蛋白含量之间存在显著相关性，但与胶原蛋白的相关性更强。这项研究提供了有力证据，表明生长因子和HP可以成功联合使用，以增强体外工程化膝关节半月板构建体的功能特性。

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本文引用的文献

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J Dent Res. 2008 Feb;87(2):180-5. doi: 10.1177/154405910808700205.

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[Effect of three growth factors on proliferation and cell phenotype of human fetal meniscal cells].[三种生长因子对人胎儿半月板细胞增殖及细胞表型的影响]

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