组成型人端粒酶逆转录酶表达增强内皮祖细胞的再生特性

S. Murasawa, J. Llevadot, Marcy Silver, J. Isner, Douglas Losordo, T. Asahara
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引用次数: 312

摘要

研究背景:利用人端粒酶逆转录酶(hTERT)基因转移对细胞寿命调控分子端粒酶进行修饰,探讨其对新生血管内皮祖细胞(EPCs)再生特性的影响。方法和结果:第8天,htert转导的EPCs (Td- terts)的端粒酶活性增强(与未转导的EPCs [no-Td]相比增强1.2倍,与gfp转导的EPCs [Td/GFPs]相比增强1.2倍);第8天,Td/TERTs组的有丝分裂能力分别高于Td/GFP组(0.62±0.02比0.53±0.01,P <0.01)。hTERT过表达可显著增强内皮生长因子诱导的EPCs细胞迁移(Td/TERTs vs Td/GFPs,分别为292±12 vs 174±6,P <0.01)。hTERT过表达使内皮祖细胞免于饥饿诱导的细胞凋亡,这一结果在血管内皮生长因子的作用下进一步增强。完全分化内皮细胞(tdECs)在30天前仅在Td/TERT中检测到,而在Td/ gfp和no- tds中均未检测到tdECs集落。最后,我们研究了异种EPCs的体内移植。与Td/GFPs相比,Td/TERTs在肢体保留方面显著改善了出生后新生血管的形成,提高了4倍;激光多普勒测量肢体灌注(0.77±0.10比0.47±0.06,P =0.02)和毛细血管密度(224±78比90±40支/mm2, P <0.01)。结论:这些发现提供了端粒酶活性参与EPC血管生成特性的新证据;有丝分裂活性,迁移活性和细胞存活。通过hTERT移植增强EPCs的再生活性将为严重缺血性疾病患者的出生后新生血管提供新的治疗策略。
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Constitutive Human Telomerase Reverse Transcriptase Expression Enhances Regenerative Properties of Endothelial Progenitor Cells
Background—The regulatory molecule for cell life span, telomerase, was modified by human telomerase reverse transcriptase (hTERT) gene transfer to investigate its effect on regenerative properties of endothelial progenitor cells (EPCs) in neovascularization. Methods and Results—Telomerase activity was enhanced in hTERT-transduced EPCs (Td-TERTs) (1.2-fold versus no transduced EPCs [no-Td] and 1.2-fold versus GFP-transduced EPCs [Td/GFPs] at day 8; 5.2-fold versus no-Td and 4.8-fold versus Td/GFP at day 21, respectively) Mitogenic capacity in Td/TERTs exceeded that in Td/GFPs at day 8 (0.62±0.02 versus 0.53±0.01, respectively;P <0.01). Vascular endothelial growth factor-induced cell migration in EPCs was markedly enhanced by hTERT overexpression (Td/TERTs versus Td/GFPs, 292±12 versus 174±6 cells, respectively;P <0.01). hTERT overexpression has rescued EPCs from starvation-induced cell apoptosis, an outcome that was further enhanced in response to vascular endothelial growth factor. The colony appearance of totally differentiated endothelial cells (tdECs) was detected before day 30 only in Td/TERT, whereas no tdEC colonies could be detected in both Td/GFPs and no-Tds. Finally, we investigated in vivo transplantation of heterologous EPCs. Td/TERTs dramatically improved postnatal neovascularization in terms of limb salvage by 4-fold in comparison with that of Td/GFPs; limb perfusion was measured by laser Doppler (0.77±0.10 versus 0.47±0.06;P =0.02), and capillary density (224±78 versus 90±40 capillaries/mm2;P <0.01). Conclusions—These findings provide the novel evidence that telomerase activity contributes to EPC angiogenic properties; mitogenic activity, migratory activity, and cell survival. This enhanced regenerative activity of EPCs by hTERT transfer will provide novel therapeutical strategy for postnatal neovascularization in severe ischemic disease patients.
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