热休克蛋白A家族成员在正常人成纤维细胞中对高温反应的基因表达分析

Tatsuya Yunoki, Ayako Kariya, T. Kondo, A. Hayashi, Y. Tabuchi
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引用次数: 1

摘要

热休克蛋白A (HSPA)家族成员由至少13个基因组成。我们研究了热应激对正常人成纤维细胞HSPA家族成员基因表达的影响。4种NHF细胞系Hs68、OUMS-36、NTI-4和KD分别在41°C轻度热疗(MHT) 30 min或43°C热疗(HT) 30 min,然后在37°C培养1或24 h。用HT处理的细胞显著诱导细胞死亡,而用MHT处理的细胞没有观察到这种变化。实时定量聚合酶链反应显示,MHT和HT处理的细胞中HSPA1A、HSPA1B、HSPA1L、hspaa4、HSPA4L、HSPA5和HSPA6的表达水平均显著升高,且HT处理比MHT处理更有效。这是第一个报道热处理后HSPA4表达增加的报道。在所有四种NHF细胞系中以相同的方式观察到这些变化。另一方面,MHT和HT均不影响hspaa2、HSPA8、HSPA9、HSPA12A、HSPA13和HSPA14的表达水平。结果表明,HSPA1A、HSPA1B、HSPA1L、hspaa4、HSPA4L、HSPA5和HSPA6为热诱导型HSPA基因,其余HSPA家族成员为组成型(非热诱导型)HSPA基因。37℃非加热条件下,组成型HSPA基因的表达量高于热诱导型HSPA基因的表达量。综上所述,我们确定了HSPA家族成员在NHF细胞中对热应激的基因表达模式。这些结果可能为理解正常细胞中MHT和HT的分子机制提供基础。
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Gene Expression Analysis of Heat Shock Protein A Family Members Responsive to Hyperthermic Treatments in Normal Human Fibroblastic Cells
Heat shock protein A (HSPA)family members consist of at least 13 genes. We studied the effects of heat stress on the gene expression of HSPA family members in normal human fibroblastic (NHF) cells. Four NHF cell lines, Hs68, OUMS-36, NTI-4, and KD, were treated with mild hyperthermia(MHT)at 41°C for 30 min or hyperthermia(HT)at 43°C for 30 min,followed by culturing for 1 or 24 h at 37°C.Treatment of cells with HT significantly induced cell death,whereas this change was not observed in cells treated with MHT. Real-time quantitative polymerase chain reaction demonstrated that the expression levels of HSPA1A,HSPA1B,HSPA1L,HSPA4,HSPA4L,HSPA5 and HSPA6 were significantly elevated in the cells treated with MHT and HT,and the HT treatment was more effective than the MHT treatment. This report is the first to describe an increase in HSPA4 expression by heat treatment. These alterations were observed in all four NHF cell lines in the same way. On the other hand, neither MHT nor HT affected the expression levels of HSPA2, HSPA8, HSPA9, HSPA12A, HSPA13 and HSPA14. These results demonstrated that HSPA1A, HSPA1B, HSPA1L, HSPA4, HSPA4L, HSPA5 and HSPA6 were heat-inducible HSPA genes, but the remaining HSPA family members were constitutive(not heat-inducible)HSPA genes. Under the non-heated condition at 37°C, the expression levels of constitutive HSPA genes were higher than those of heat-inducible HSPA genes. In conclusion,the gene expression patterns of HSPA family members responsive to heat stresses in NHF cells were identified. These results may provide a basis for understanding the molecular mechanisms of MHT and HT in normal cells.
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