低氧条件对骨髓间充质干细胞的影响

Nugroho Setyowardoyo
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引用次数: 1

摘要

人体的低氧状态,即缺氧,被认为是一种危险的状态,显然是一种正常的生理状态,是干细胞在体内所需要的。间充质干细胞(MSCs)需要骨髓中1-3%的低氧张力的生理最佳条件。本研究的目的是揭示常氧条件下(20% O2浓度)与缺氧条件下(1% O2含量)间充质干细胞体外培养的差异,特别是在培养物的活力、多能性和MSC增殖能力方面。本研究为缺氧条件下骨髓间充质干细胞(BMSCs)体外培养的探索性实验室研究。研究设计采用随机对照组测试后设计。本研究历时2个月。以对照组、治疗组1和治疗组2之间的least -样CFU-Cs的数量计算,对照组、治疗组1和治疗组2之间在免疫荧光检查中表达OCT4编码基因的细胞数量的平均百分比,对照组和治疗组之间在免疫荧光检查中表达OCT4编码基因的细胞数量的平均百分比,对照组之间在免疫荧光检查中表达OCT4编码基因的细胞数量的平均百分比,治疗1组与治疗2组比较p <0.01。对照组、处理1组和处理2组胰蛋白酶蓝非吸收色细胞数(活细胞)百分比差异有统计学意义(p值<0.05)。这表明,常氧培养的前提条件为细胞在缺氧培养之前适应和增殖提供了机会。低氧条件和常氧条件下的培养是最好的培养条件,因为它们产生的细胞能够保持多能性,同时与直接缺氧条件相比仍具有更好的增殖和生存能力。关键词:缺氧,常氧,骨髓,间充质干细胞。
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INFLUENCE OF LOW OXYGEN CONDITION OF BONE MARROW MESENCHYMAL STEM CELL
The state of low oxygen levels known as hypoxia in humans is considered a dangerous condition is apparently a normal physiological condition and required by the stem cells as they are in the body. Mesencyimal Stem Cells (MSCs) require physiologically optimal conditions of low O2 tension of 1-3% in the bone marrow. The purpose of this study was to reveal the difference between in vitro culture of MSC in normoxia condition (20% O 2 concentration) with hypoxia condition (1% O2 content) especially in terms of viability, pluripotent properties, and MSC proliferation ability of the culture it produces. This research is an explorative laboratory research invitro on Bone Marrow Mesenchymal Stem Cells (BMSCs) culture using hypoxia condition. The study design used Randomized Control Group Post-Test Only Design. This research was conducted for 2 months. There was a significant difference in mean slow proliferation based on the number of Least-like CFU-Cs between the control group, treatment group 1 and treatment group 2, the mean percentage of the number of cells expressing the OCT4 coding gene on immunofluorosense examination between the control group, 1 and the treatment group 2 and the mean percentage of cell numbers expressing the OCT4 coding gene on the immunofluorosense examination between the control group, the treatment group 1 and the treatment group 2 showing p <0.01. There was a significant difference of percentage of non-absorbing color cell number of trypsin blue (viable cells) between control group, treatment group 1, and treatment group 2 showing p value <0.05. This suggests that the precondition of culture with normoxia provides an opportunity for cells to adapt and proliferate before being conditioned in hypoxic cultures. Cultures with hypoxic conditions and preconditions of normoxia are the best culture conditions because they produce cells that are capable of maintaining pluripotency properties while still having better proliferation and viability capability compared with direct hypoxia conditions.Keywords: Hypoxia, normoxia, bone marrow, mesenchymal stem cells.
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