Department of Paediatrics, The Chinese University of Hong Kong, Hong Kong, China.
Eur J Heart Fail. 2011 Apr;13(4):366-76. doi: 10.1093/eurjhf/hfr001. Epub 2011 Feb 16.
We investigated the therapeutic efficacy of thrombopoietin (TPO) in acute and chronic rat models of heart damage and explored the mechanisms in terms of genome-wide transcriptional changes, phosphorylation signals, and bone marrow endothelial progenitor cell (EPC) levels.
Cardiac damage was induced in rat models of (i) acute-doxorubicin (DOX) treatment: single high-dose DOX, four doses TPO, followed up for 5 days; and (ii) chronic-DOX treatment: one low-dose DOX and three doses TPO weekly for 6 weeks, followed up for 11 weeks. Our results demonstrated that TPO treatment led to significant improvements of fractional shortening, cardiac output, and morphologic parameters in both models. In the acute-DOX model, microarray and network analyses showed that DOX damage was associated with changes in a large cohort of gene expressions, of which many were inversely regulated by TPO, including modulators of signal transduction, ion transport, anti-apoptosis, protein kinase B/ p42/p44 extracellular signal-regulated kinase (AKT/ERK) pathways, cell division, and contractile protein/matrix remodelling. Many of these regulations also occurred in chronic-DOX animals, in which TPO treatment reduced morphological damage and cardiomyopathy score, and increased AKT phosphorylation of heart tissues. Thrombopoietin also increased EPC colonies in their bone marrow.
Our overall data suggest that TPO promotes cardiac protection from acute- and chronic-DOX insults, possibly mediated by multi-factorial mechanisms including AKT- and ERK-associated restoration of regulatory gene activities critical for normal heart function.
我们研究了促血小板生成素(TPO)在急性和慢性大鼠心脏损伤模型中的治疗效果,并从全基因组转录变化、磷酸化信号和骨髓内皮祖细胞(EPC)水平等方面探讨了其作用机制。
我们在大鼠模型中诱导了心脏损伤:(i)急性阿霉素(DOX)治疗:单次高剂量 DOX,4 次 TPO 治疗,随后 5 天观察;(ii)慢性 DOX 治疗:每周低剂量 DOX 一次和 TPO 三次,持续 6 周,随后 11 周观察。我们的结果表明,TPO 治疗可显著改善两种模型的短轴缩短率、心输出量和形态参数。在急性 DOX 模型中,微阵列和网络分析表明,DOX 损伤与一大群基因表达的变化相关,其中许多基因受到 TPO 的反向调节,包括信号转导、离子转运、抗凋亡、蛋白激酶 B/ p42/p44 细胞外信号调节激酶(AKT/ERK)通路、细胞分裂和收缩蛋白/基质重塑的调节剂。这些调节作用在慢性 DOX 动物中也很明显,其中 TPO 治疗可减轻形态损伤和心肌病评分,并增加心脏组织中 AKT 的磷酸化。TPO 还增加了骨髓中的 EPC 集落。
我们的整体数据表明,TPO 可促进心脏对急性和慢性 DOX 损伤的保护作用,其作用机制可能涉及多因素,包括 AKT 和 ERK 相关的调节基因活性的恢复,这些基因对正常心脏功能至关重要。
