Misao Yu, Takemura Genzou, Arai Masazumi, Ohno Takamasa, Onogi Hirohito, Takahashi Tomoyuki, Minatoguchi Shinya, Fujiwara Takako, Fujiwara Hisayoshi
Department of Cardiology, Regeneration Medicine and Bioethics, Gifu University Graduate School of Medicine, 1-1 Yanagido, Gifu 501-1194, Japan.
Cardiovasc Res. 2006 Aug 1;71(3):455-65. doi: 10.1016/j.cardiores.2006.05.002. Epub 2006 May 9.
Granulocyte-colony stimulating factor (G-CSF) accelerates repair following myocardial infarction (MI). Recently, the beneficial effects of post-MI administration of G-CSF were reported to be mediated by direct activation of the Jak-Stat pathway in cardiomyocytes. Our aim was to test the hypothesis that bone marrow-derived cells recruited into the infarcted myocardium are the primary mediators of the beneficial effects by G-CSF.
MI was induced using a 30-min ischemia-reperfusion protocol (day 0) in 40 rabbits treated with G-CSF (10 microg/kg/day from days 3 to 7) or saline. Another 40 rabbits received the same G-CSF or saline protocol but also received AMD3100 (200 microg/kg/day), a specific inhibitor of CXCR4. On day 28 post-MI, left ventricular ejection fractions and end-diastolic dimensions were significantly better in the G-CSF group than in the control saline group, and the scar area/left ventricular wall area ratio was significantly smaller in the G-CSF group. G-CSF administration also led to increased mobilization of CXCR4+ bone marrow cells, including RAM11+ macrophages, into infarcted areas. And within those areas there was significant upregulation of expression of stromal cell-derived factor (SDF)-1, a chemoattractant of circulating CXCR4+ cells, as well as of the collagenase matrix metalloproteinase-1. AMD3100 significantly inhibited all of these beneficial effects of G-CSF, but did not affect the upregulation of SDF-1 or phospho-Stat3.
Recruitment of CXCR4+ cells into infarcted myocardial tissues via stimulation of the CXCR4/SDF-1 axis plays a critical role in the beneficial effects of G-CSF.
粒细胞集落刺激因子(G-CSF)可加速心肌梗死(MI)后的修复。最近有报道称,MI后给予G-CSF的有益作用是通过直接激活心肌细胞中的Jak-Stat途径介导的。我们的目的是检验以下假设:募集到梗死心肌中的骨髓来源细胞是G-CSF有益作用的主要介导因子。
采用30分钟缺血再灌注方案(第0天)诱导40只兔子发生MI,这些兔子接受G-CSF(第3至7天,10微克/千克/天)或生理盐水治疗。另外40只兔子接受相同的G-CSF或生理盐水方案,但同时还接受AMD3100(200微克/千克/天),一种CXCR4的特异性抑制剂。在MI后第28天,G-CSF组的左心室射血分数和舒张末期内径明显优于对照组生理盐水组,且G-CSF组的瘢痕面积/左心室壁面积比明显更小。给予G-CSF还导致CXCR4+骨髓细胞,包括RAM11+巨噬细胞,向梗死区域的动员增加。在这些区域内,基质细胞衍生因子(SDF)-1(循环CXCR4+细胞的趋化因子)以及胶原酶基质金属蛋白酶-1的表达明显上调。AMD3100显著抑制了G-CSF的所有这些有益作用,但不影响SDF-1或磷酸化Stat3的上调。
通过刺激CXCR4/SDF-1轴将CXCR4+细胞募集到梗死心肌组织中在G-CSF的有益作用中起关键作用。
