Seguin Alexandra, Sutak Robert, Bulteau Anne-Laure, Garcia-Serres Richard, Oddou Jean-Louis, Lefevre Sophie, Santos Renata, Dancis Andrew, Camadro Jean-Michel, Latour Jean-Marc, Lesuisse Emmanuel
Laboratoire Mitochondries, Métaux et Stress oxydant, Institut Jacques Monod, CNRS-Université Paris Diderot, France.
Biochim Biophys Acta. 2010 Jun;1802(6):531-8. doi: 10.1016/j.bbadis.2010.03.008. Epub 2010 Mar 20.
Yeast cells deficient in the yeast frataxin homolog (Yfh1p) accumulate iron in their mitochondria. Whether this iron is toxic, however, remains unclear. We showed that large excesses of iron in the growth medium did not inhibit growth and did not decrease cell viability. Increasing the ratio of mitochondrial iron-to-Yfh1p by decreasing the steady-state level of Yfh1p to less than 100 molecules per cell had very few deleterious effects on cell physiology, even though the mitochondrial iron concentration greatly exceeded the iron-binding capacity of Yfh1p in these conditions. Mössbauer spectroscopy and FPLC analyses of whole mitochondria or of isolated mitochondrial matrices showed that the chemical and biochemical forms of the accumulated iron in mitochondria of mutant yeast strains (Deltayfh1, Deltaggc1 and Deltassq1) displayed a nearly identical distribution. This was also the case for Deltaggc1 cells, in which Yfh1p was overproduced. In these mitochondria, most of the iron was insoluble, and the ratio of soluble-to-insoluble iron did not change when the amount of Yfh1p was increased up to 4500 molecules per cell. Our results do not privilege the hypothesis of Yfh1p being an iron storage protein in vivo.
缺乏酵母铁转运蛋白同源物(Yfh1p)的酵母细胞会在线粒体中积累铁。然而,这种铁是否具有毒性仍不清楚。我们发现,生长培养基中大量过量的铁不会抑制生长,也不会降低细胞活力。通过将Yfh1p的稳态水平降低至每个细胞少于100个分子,从而增加线粒体铁与Yfh1p的比例,对细胞生理几乎没有有害影响,尽管在这些条件下线粒体铁浓度大大超过了Yfh1p的铁结合能力。对整个线粒体或分离的线粒体基质进行穆斯堡尔光谱和快速蛋白质液相色谱分析表明,突变酵母菌株(Deltayfh1、Deltaggc1和Deltassq1)线粒体中积累的铁的化学和生化形式呈现出几乎相同的分布。在Yfh1p过量产生的Deltaggc1细胞中也是如此。在这些线粒体中,大部分铁是不溶性的,当Yfh1p的量增加到每个细胞4500个分子时,可溶性铁与不溶性铁的比例没有变化。我们的结果并不支持Yfh1p在体内是一种铁储存蛋白的假说。
