摘要
目的:探索微模式培养控制和导电基底对人牙周膜干细胞和骨髓间充质干细胞生物电特性的影响。方法:通过光刻技术在盖玻片和导电玻璃两种透明材料表面构造与细胞自身宽度相当的微模式化培养基底,微模式图案分为两种:单种细胞的单格阵列结构、双细胞共培养的交叉指贯通结构。应用全细胞膜片钳技术记录两种细胞在不同培养模式下的静息电位、钾通道电流等生物电特性。实验分9组:培养皿对照组、盖玻片牙周膜干细胞组、盖玻片骨髓间充质干细胞组、盖玻片共培养牙周膜干细胞组、盖玻片共培养骨髓间充质干细胞组、导电玻璃牙周膜干细胞组、导电玻璃骨髓间充质干细胞组、导电玻璃共培养牙周膜干细胞组、导电玻璃共培养骨髓间充质干细胞组。结果:对于牙周膜干细胞,与对照组自由铺展培养模式相比,微模式化形态控制导致细胞膜电容减小,钾通道电流密度增大(P<0.01),导电基底导致细胞静息膜电位绝对值增大;两种微模式化培养模式相比,双细胞交叉指贯通培养使得细胞静息膜电位绝对值减小。对于骨髓间充质干细胞,与对照组自由铺展培养模式相比,导电基底表面细胞膜电容增大、钾通道电流密度减小和静息膜电位绝对值减小,但双细胞交叉指贯通培养则导致细胞膜电容减小、钾电流密度增大和静息膜电位绝对值增大;与盖玻片共培养模式相比,导电玻璃共培养细胞的钾电流密度显著增大(P<0.01)。结论:导电培养微模式能够调控人牙周膜和骨髓间充质干细胞的生物电特性,从利用内源电场角度,为深入探索两种干细胞促进口腔软硬组织再生修复机制提供新的思路。
Objective:To explore the influence of micropatterned culture mode control and conductive substrate on the bioelectrical characteristics of the human periodontal ligamant stem cells(PDLSCs)and bone marrow mesenchymal stem cells(BMSCs).Methods:By using photolithography technology,the micro-patterned culture substrates with the width equivalent to the cell itself were constructed on the surface of two transparent materials,coverslip and ITO conductive glass.The micropatterns were divided into two types:single frame for single-type cell and interconnected interdigitated structure for two co-cultured cells.And the whole-cell patch clamp technique was used to record the bioelectrical characteristics such as resting membrane potential and potassium current of two types of cells under different culture modes.The cells were divided into 9 groups:culture dish as control group,PDLSCs on coverslip,BMSCs on coverslip,PDLSCs on coverslip with co-cultured structure,BMSCs on coverslip with co-cultured structure,PDLSCs on ITO,BMSCs on ITO,PDLSCs on ITO with co-cultured structure,BMSCs on ITO with co-cultured structure.Results:For PDLSCs,compared with the control group,micropatterned morphology control resulted in a decrease in cell membrane capacitance,an increase in potassium channel current density(P<0.01),conductive substrate increased the absolute resting membrane potential;between the two micro-patterned modes,two cells co-cultured on the interconnected interdigitated structure resulted in a decrease in the absolute value of cell resting membrane potential.For BMSCs,compared with the control,micropatterned morphology control and conductive substrate induced an increase in cell membrane capacitance,a decrease in potassium channel current density,and a decrease in absolute resting membrane potential.However,two cells co-cultured on the interconnected interdigitated structure resulted in a decrease in cell membrane capacitance,an increase in potassium current density,and an increase in absolute resting membrane potential;compar
作者
裴振华
王劲松
PEI Zhen-hua;WANG Jin-song(Department of Prosthodontics,Capital Medical University School of Stomatology,Beijing 100050,China;Capital Medical University School of Basic Medical Sciences,Beijing 100069,China)
出处
《口腔颌面修复学杂志》
2024年第4期247-252,共6页
Chinese Journal of Prosthodontics
基金
北京市自然科学基金预探索项目资助课题(项目编号:7163215)。
关键词
微模式
牙周膜干细胞
骨髓间充质干细胞
导电基底
生物电特性
micropattern
periodontal ligamant stem cells
bone marrow mesenchymal stem cells
conductive substrate
bioelectrical characteristics
