Department of Orthopaedic Surgery, Surgical Science, Tokai University School of Medicine, 143 Shimokasuya, Isehara, Kanagawa, 259-1193, Japan.
J Orthop Res. 2010 May;28(5):623-30. doi: 10.1002/jor.21036.
Activated nucleus pulposus (NP) cells can be reinserted into the disc to inhibit intervertebral disc degeneration. Experimental studies in animals showed that using a coculture system with direct cell-to-cell contact with mesenchymal stem cells (MSCs) significantly upregulated the biological activity of NP cells. The purpose of this study is to determine whether this activation of NP cells by autologous MSCs is applicable to human cells in vitro. Human NP tissue was obtained from surgical specimens and MSCs from bone marrow of 10 subjects. Six-well culture plates and inserts were used for culture; 1.0x10(4) NP cells were seeded onto each insert and incubated alone, in standard coculture with 1.0x10(4) MSCs, or cocultured with direct cell-to-cell contact. NP cell proliferation, DNA synthesis, and proteoglycan (PG) synthesis were evaluated. Chromosome abnormalities in the activated NP cells and tumorigenesis of the cells were evaluated in an additional 10 patients by microscopic examination for segmented cells and histological assessment of activated cells transplanted into nude mice. Cell proliferation, DNA synthesis, and PG synthesis were significantly upregulated. The positive effects of the coculture system with direct cell-to-cell contact seen in animal studies were also confirmed in human cells. Chromosome abnormalities and tumorigenesis were not observed in the activated NP cells. In conclusion, a coculture system with direct cell-to-cell contact demonstrated a significant positive effect, enhancing the biological properties of human NP cells, as it did in animal models. These results should prove useful for conducting trials leading to the clinical use of activated NP cell transplantation.
激活的髓核细胞(NP)可以重新植入椎间盘以抑制椎间盘退变。动物实验研究表明,使用与间充质干细胞(MSCs)直接细胞接触的共培养系统可显著上调 NP 细胞的生物学活性。本研究旨在确定自体 MSC 对 NP 细胞的这种激活是否适用于体外的人类细胞。从手术标本中获取人 NP 组织,从 10 名受试者的骨髓中获取 MSCs。使用六孔培养板和插入物进行培养;将 1.0x10(4)个 NP 细胞接种到每个插入物上,单独孵育,或与 1.0x10(4)个 MSC 进行标准共培养,或进行直接细胞接触共培养。评估 NP 细胞增殖、DNA 合成和蛋白聚糖(PG)合成。通过对移植到裸鼠中的激活的 NP 细胞进行分段细胞的显微镜检查和激活细胞的组织学评估,在另外 10 名患者中评估激活的 NP 细胞中的染色体异常和致瘤性。细胞增殖、DNA 合成和 PG 合成均显著上调。动物研究中观察到的共培养系统与直接细胞接触的积极影响也在人类细胞中得到了证实。在激活的 NP 细胞中未观察到染色体异常和致瘤性。总之,与直接细胞接触的共培养系统显示出显著的积极效果,增强了人 NP 细胞的生物学特性,与动物模型中的效果相同。这些结果对于进行临床试验以实现激活的 NP 细胞移植的临床应用应该是有用的。
