Effects of biological intensity electric field on motility and CD9 expression of human epidermal cell line HaCaT and mouse epidermal cells
10.3760/cma.j.cn501120-20200115-00023
- VernacularTitle:生物强度电场对人表皮细胞株HaCaT和小鼠表皮细胞运动性及CD9表达的影响
- Author:
Ran JI
;
Ze ZHANG
;
Wenping WANG
;
Qiong ZHANG
;
Yanling LYU
;
Xupin JIANG
;
Miao TENG
- From:
Chinese Journal of Burns
2020;37(1):E015-E015
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To investigate the regulation effect of biological intensity electric field (EF) on the motility and CD9 expression of human epidermal cell line HaCaT and mouse epidermal cells.Methods:The experimental research method was used. Human epidermal cell line HaCaT cells in logarithmic growth phase and primary mouse epidermal cells isolated from 16 BALB/c mice aged 1-3 days were used for the experiment. HaCaT cells were divided into EF group treated with EF in the intensity of 200 mV/mm and sham EF group treated with simulated operation. The cell migration (displacement velocity, trajectory velocity, and direction, with 46 samples in EF group and 34 samples in sham EF group) and arrangement were observed in the living cell workstation, and the distribution and expression of CD9 protein were detected by immunofluorescence method. Both HaCaT cells and mouse epidermal cells were divided into sham EF group (simulated operation) and 50 mV/mm group, 100 mV/mm group, 200 mV/mm group and 400 mV/mm group treated with EF in the corresponding intensity respectively. Both HaCaT cells and mouse epidermal cells were divided into blank control group without any treatment and 1 h group, 3 h group and 6 h group treated with EF in the intensity of 200 mV/mm for corresponding time respectively. The expression of CD9 protein was detected by Western blotting (n=3). Data were statistically analyzed with Mann-Whitney U test, one-way analysis of variance, t test and least significant difference test. Results:Within 3 hours of treatment, HaCaT cells in EF group tended to move towards the negative electrode obviously, while HaCaT cells in sham EF group moved randomly around the origin; compared with those of sham EF group, the directivity of HaCaT cells in EF group was significantly enhanced, and the displacement velocity and trajectory velocity were significantly increased (Z=-3.975, -6.052, -6.299, P<0.01). After 3 hours of treatment, the long axis of HaCaT cells in EF group was perpendicular to the direction of EF, while HaCaT cells in sham EF group arranged randomly. After 3 hours of treatment, the expression of CD9 protein in HaCaT cells in EF group was significantly down-regulated compared with sham EF group (t=4.527, P<0.01), although both expressed on cytomembrane. After 3 hours of treatment, the expression of CD9 protein in HaCaT cells and mouse epidermal cells in sham EF group, 50 mV/mm group, 100 mV/mm group, 200 mV/mm group and 400 mV/mm group were 0.332±0.021, 0.283±0.032, 0.254±0.020, 0.231±0.041, 0.212±0.031 and 0.565±0.021, 0.453±0.022, 0.389±0.020, 0.338±0.021, 0.233±0.011, respectively. For both types of cells, compared with that of sham EF group, the expression of CD9 protein in cells was significantly decreased in the four groups of EF treatment (P<0.01); compared with that of 50 mV/mm group, the expression of CD9 protein in cells was significantly decreased in the other three groups of EF treatment (P<0.01); compared with that of 100 mV/mm group, the expression of CD9 protein in cells was significantly decreased in 200 mV/mm group and 400 mV/mm group (P<0.01); compared with that of 200 mV/mm group, the expression of CD9 protein in cells was significantly decreased in 400 mV/mm group (P<0.01). The expression levels of CD9 protein in HaCaT cells and mouse epidermal cells in blank control group, 1 h group, 3 h group and 6 h group were 0.962±0.031, 0.784±0.020, 0.531±0.021, 0.409±0.011 and 0.963±0.031, 0.872±0.031, 0.778±0.040, 0.591±0.041, respectively. For both types of cells, compared with that of blank control group, the expression of CD9 protein in cells was significantly decreased in 1 h group, 3 h group, and 6 h group (P<0.01); compared with that of 1 h group, the expression of CD9 protein in cells was significantly decreased in 3 h group and 6 h group (P<0.05 or P<0.01); compared with that of 3 h group, the expression of CD9 protein in cells was significantly decreased in 6 h group (P<0.01).Conclusions:The biological intensity EF can induce the directional migration and arrangement of HaCaT cells and down regulate the expression of CD9 in HaCaT cells and mouse epidermal cells in a time-dependent and intensity-dependent manner.
