Iron role paradox in nerve degeneration and regeneration

Samira Bolandghamat, Morteza Behnam-Rassouli
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Abstract

Iron accumulates in the neural tissue during peripheral nerve degeneration. Some studies have already been suggested that iron facilitates Wallerian degeneration (WD) events such as Schwann cell de-differentiation. On the other hand, intracellular iron levels remain elevated during nerve regeneration and gradually decrease. Iron enhances Schwann cell differentiation and axonal outgrowth. Therefore, there seems to be a paradox in the role of iron during nerve degeneration and regeneration. We explain this contradiction by suggesting that the increase in intracellular iron concentration during peripheral nerve degeneration is likely to prepare neural cells for the initiation of regeneration. Changes in iron levels are the result of changes in the expression of iron homeostasis proteins. In this review, we will first discuss the changes in the iron/iron homeostasis protein levels during peripheral nerve degeneration and regeneration and then explain how iron is related to nerve regeneration. This data may help better understand the mechanisms of peripheral nerve repair and find a solution to prevent or slow the progression of peripheral neuropathies.
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铁在神经变性和再生中的作用悖论
一些研究已经表明,铁能促进瓦勒里变性(WD)事件,如许旺细胞的去分化。另一方面,在神经再生过程中,细胞内的铁含量会持续升高并逐渐降低。铁能促进许旺细胞分化和轴突生长。因此,铁在神经退化和再生过程中的作用似乎存在矛盾。我们对这一矛盾的解释是,在周围神经变性过程中,细胞内铁浓度的增加很可能是为神经细胞的再生做准备。铁含量的变化是铁平衡蛋白表达变化的结果。在这篇综述中,我们将首先讨论外周神经变性和再生过程中铁/铁平衡蛋白水平的变化,然后解释铁与神经再生的关系。这些数据可能有助于更好地理解周围神经修复的机制,并找到预防或减缓周围神经病进展的解决方案。
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