The response of cyclic tensile strain on the BMSCs co-cultured human degenerative anulus fibrosus cells
10.11958/20161109
- VernacularTitle:循环牵张应力下BMSCs非接触共培养对人退变纤维环细胞增殖及蛋白表达的影响
- Author:
Shuang LI
;
Xiaolei SUN
;
Xinlong MA
;
Yang ZHANG
;
Shucai DENG
;
Yonghong HAO
- Keywords:
intervertebral disk displacement;
cells;
cultured;
cell proliferation;
intervertebral disc degeneration;
cyclic tensile strain;
anulus fibrosus cells;
co-culture;
BMSCs
- From:
Tianjin Medical Journal
2017;45(6):571-576
- CountryChina
- Language:Chinese
-
Abstract:
Objective To investigate the effects of different cyclic tensile strains on the proliferation and expression of bone marrow stromal cells (BMSCs)-cocultured human degenerated anulus fibrosus (AF) cells. Methods AF cells were isolated from a patient with degenerated intervertebral disc degeneration (IVD), which were co-cultured with BMSCs. The solely cultured AF cells were used as control group. The two groups of cells were expanded in monolayer, and cyclically strained for 3 hours, which were applied 0, 5%, 10%, 15%and 20%strains at a frequency of 0.25 Hz using BioDynamic test instrument. A flow cytometry method was used to examine the AF cell proliferation at 24 hours followed the application of cyclic tensile strains. After the total RNA was extracted, real-time PCR technology was used to detect the gene expression of collagenⅠand aggrecan. Results Under the same appropriate stress, the proliferative index (PI), the proportion of cells in the period of DNA synthesis, the expression of collagenⅠand aggrecan were significantly higher in the co-cultured group than those of control group (P<0.05). However, the best mechanical stimulation was different in the two groups. For the AF cells, the peaks of PI, the proportion of cells in the period of S period, the expression of collagenⅠand aggrecan were found in the 10% strain group, while for the co-cultured cells, they were found in the 15% strain group. Conclusion Co-culturing with BMSCs has a positive effect on the proliferation and expression of human degenerative fibrous ring cells, which can protect AF cells from bad stress stimulation.
