动态静水压力以细胞密度依赖的方式调节髓核表型表达和代谢。
Dynamic Hydrostatic Pressure Regulates Nucleus Pulposus Phenotypic Expression and Metabolism in a Cell Density-Dependent Manner.
作者信息
Shah Bhranti S, Chahine Nadeen O
机构信息
Department of Orthopedic Surgery, Columbia University, New York, NY 10032.
Department of Orthopedic Surgery, Columbia University, 650 West 168th Street, 14-1408E, New York, NY 10032.
出版信息
J Biomech Eng. 2018 Feb 1;140(2):0210031-02100310. doi: 10.1115/1.4038758.
Dynamic hydrostatic pressure (HP) loading can modulate nucleus pulposus (NP) cell metabolism, extracellular matrix (ECM) composition, and induce transformation of notochordal NP cells into mature phenotype. However, the effects of varying cell density and dynamic HP magnitude on NP phenotype and metabolism are unknown. This study examined the effects of physiological magnitudes of HP loading applied to bovine NP cells encapsulated within three-dimensional (3D) alginate beads. Study 1: seeding density (1 M/mL versus 4 M/mL) was evaluated in unloaded and loaded (0.1 MPa, 0.1 Hz) conditions. Study 2: loading magnitude (0, 0.1, and 0.6 MPa) applied at 0.1 Hz to 1 M/mL for 7 days was evaluated. Study 1: 4 M/mL cell density had significantly lower adenosine triphosphate (ATP), glycosaminoglycan (GAG) and collagen content, and increased lactate dehydrogenase (LDH). HP loading significantly increased ATP levels, and expression of aggrecan, collagen I, keratin-19, and N-cadherin in HP loaded versus unloaded groups. Study 2: aggrecan expression increased in a dose dependent manner with HP magnitude, whereas N-cadherin and keratin-19 expression were greatest in low HP loading compared to unloaded. Overall, the findings of the current study indicate that cell seeding density within a 3D construct is a critical variable influencing the mechanobiological response of NP cells to HP loading. NP mechanobiology and phenotypic expression was also found to be dependent on the magnitude of HP loading. These findings suggest that HP loading and culture conditions of NP cells may require complex optimization for engineering an NP replacement tissue.
动态静水压力(HP)加载可调节髓核(NP)细胞代谢、细胞外基质(ECM)组成,并诱导脊索样NP细胞转变为成熟表型。然而,不同细胞密度和动态HP大小对NP表型和代谢的影响尚不清楚。本研究考察了施加于包裹在三维(3D)海藻酸盐珠中的牛NP细胞的生理大小HP加载的影响。研究1:在未加载和加载(0.1 MPa,0.1 Hz)条件下评估接种密度(1×10^6个/mL与4×10^6个/mL)。研究2:评估以0.1 Hz施加于1×10^6个/mL的加载大小(0、0.1和0.6 MPa),持续7天。研究1:4×10^6个/mL细胞密度的三磷酸腺苷(ATP)、糖胺聚糖(GAG)和胶原蛋白含量显著降低,乳酸脱氢酶(LDH)增加。与未加载组相比,HP加载显著提高了加载HP组的ATP水平以及聚集蛋白聚糖、胶原蛋白I、角蛋白-19和N-钙黏蛋白的表达。研究2:聚集蛋白聚糖表达随HP大小呈剂量依赖性增加,而与未加载相比,低HP加载时N-钙黏蛋白和角蛋白-19表达最高。总体而言,本研究结果表明,3D构建体内的细胞接种密度是影响NP细胞对HP加载的力学生物学反应的关键变量。还发现NP力学生物学和表型表达取决于HP加载的大小。这些发现表明为构建NP替代组织,NP细胞的HP加载和培养条件可能需要复杂的优化。
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