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为了进一步探讨运动心脏重塑的发生机制,以大鼠18S-RNA为内参照,采用先进的定量反转录聚合酶链反应(QRT-PCR)技术,对20只经12周耐力训练的 SD大鼠心脏中原癌基因c-myc的表达进行了研究。结果表明,与安静对照组相比,耐力训练组大鼠心室中c-myc的表达非但没有提高,反而出现非常显著的下降(P<0.001);尽管训练组大鼠心房中c-myc的表达较对照组有明显升高,但无显著性统计学意义(p< 0.05)。训练组大鼠。心室中 c-myc的表达显著低于心房中 c-myc的表达(P< 0.01),而安静对照组心室中 c-myc的表达则与相应心房中 c-myc的表达无显著性差异(p> 0.05)。研究结果提示,训练后心室中c-myc表达的显著下降,一方面,可能是由于在耐力训练应激下,c-myc主要为早期瞬间表达,在训练后早期,甚至几小时即快速表达,然后启动心肌结构基因,如MHC、a-actin、MLC-2、ANF等的表达,而自身则由于受反馈抑制的影响,后期表达下降;另一方面,可能由于训练大鼠心房中c-myc表达的触发机制不同于心室中相应机制的缘故。
In order to further explore the mechanism of exercise heart remodeling, 18S-RNA was used as an internal reference and advanced quantitative reverse transcription-polymerase chain reaction (QRT-PCR) The expression of proto-oncogene c-myc in rat heart was studied. The results showed that, compared with the quiet control group, endurance training group of rats ventricular c-myc expression not only did not improve, but a very significant decline (P <0.001); although training group atrial c-myc (P <0.05), but there was no significant difference between the two groups (p <0.05). Training group rats. The expression of c-myc in the ventricles was significantly lower than that in the atria (P <0.01), while the expression of c-myc in the ventricular of the quiet control group was not significantly different from the expression of c-myc in the corresponding atria (P> 0.05). The results suggest that after training, the expression of c-myc in the ventricle significantly decreased, on the one hand, may be due to endurance training stress, c-myc mainly for the early moment of expression, early in the training, or even hours after the rapid expression, And then start the myocardial structural genes, such as MHC, a-actin, MLC-2, ANF expression, but itself due to the impact of feedback inhibition, decreased expression at the late; the other hand, may be due to training in the rat atrial c-myc The trigger mechanism of expression is different from the corresponding mechanism in the ventricle.