ECM molecules mediate both Schwann cell proliferation and activation to enhance neurite outgrowth.

Stephanie J Armstrong, Mikael Wiberg, Giorgio Terenghi, Paul J Kingham
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引用次数: 140

Abstract

Tissue engineering using a combination of biomaterials and cells represents a new approach to nerve repair. We have investigated the effect that extracellular matrix (ECM) molecules have on Schwann cell (SC) attachment and proliferation on the nerve conduit material poly-3-hydroxybutyrate (PHB), and SC influence on neurite outgrowth in vitro. Initial SC attachment to PHB mats was unaffected by ECM molecules but proliferation increased (laminin > fibronectin > collagen). SCs seeded onto ECM-coated culture inserts suspended above a monolayer of NG108-15 cells determined the effect of released diffusible factors. The effect of direct contact between the two cell types on ECM molecules was also investigated. In both systems SCs enhanced neurite number per cell and percentage of NG108-15 cells sprouting neurites. NG108-15 cells grown in direct contact with SCs had significantly longer neurites than those exposed to diffusible factors when seeded on laminin or fibronectin. Diffusible factors released from SCs cultured on ECM molecules appear to initiate neurite outgrowth, whereas SC-neuron contact promotes neurite elongation. SC proliferation was maximal on poly-D-lysine-coated surfaces, but these cells did not influence neurite outgrowth to the levels of laminin or fibronectin. This suggests that ECM molecules enhance cell number and activate SCs to release neurite promoting factors. Addition of ECM molecules to PHB nerve conduits containing SCs is likely to provide benefits for the treatment of nerve injuries.

ECM分子介导雪旺细胞增殖和激活,促进神经突生长。
生物材料与细胞相结合的组织工程是神经修复的新途径。我们研究了细胞外基质(ECM)分子对雪旺细胞(SC)在神经导管材料聚3-羟基丁酸酯(PHB)上的附着和增殖的影响,以及SC对神经突生长的影响。ECM分子不影响SC与PHB垫的初始附着,但增殖增加(层粘连蛋白>纤维连接蛋白>胶原蛋白)。将sc播种到悬浮在单层NG108-15细胞上的ecm包被培养插入物上,以确定释放的扩散因子的影响。研究了两种细胞类型直接接触对ECM分子的影响。在这两种系统中,SCs均增加了每个细胞的神经突数量和NG108-15细胞萌发神经突的百分比。直接与SCs接触生长的NG108-15细胞的神经突明显长于用层粘连蛋白或纤维连接蛋白播散的细胞。在ECM分子上培养的SCs释放的扩散因子似乎启动了神经突的生长,而sc -神经元的接触促进了神经突的伸长。SC在聚d -赖氨酸包被的表面上增殖最大,但这些细胞不影响层粘连蛋白或纤维连接蛋白水平的神经突生长。这表明ECM分子增加细胞数量,激活SCs释放神经突促进因子。将ECM分子添加到含有SCs的PHB神经导管中可能对神经损伤的治疗有好处。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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