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首页> 外文期刊>Free Radical Biology and Medicine: The Official Journal of the Oxygen Society >Nonenzymatic oxygenated metabolites of alpha-linolenic acid B-1- and L-1-phytoprostanes protect immature neurons from oxidant injury and promote differentiation of oligodendrocyte progenitors through PPAR-gamma activation
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Nonenzymatic oxygenated metabolites of alpha-linolenic acid B-1- and L-1-phytoprostanes protect immature neurons from oxidant injury and promote differentiation of oligodendrocyte progenitors through PPAR-gamma activation

机译:α-亚麻酸B-1-和L-1-植物甾烷烃的非酶含氧代谢物免受氧化剂损伤的未成熟神经元,并通过PPAR-Gamma活化促进少突胶质细胞祖细胞的分化

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Phytoprostanes (PhytoP's) are formed in higher plants from alpha-linolenic acid via a nonenzymatic free radical-catalyzed pathway and act as endogenous mediators capable of protecting cells from damage under various conditions related to oxidative stress. Humans are exposed to PhytoP's, as they are present in relevant quantities in vegetable food and pollen. The uptake of PhytoP's through the olfactory epithelium of the nasal mucosa, upon pollen grain inhalation, is of interest as the intranasal pathway is regarded as a direct route of communication between the environment and the brain. On this basis, we sought to investigate the potential activities of PhytoP's on immature cells of the central nervous system, which are particularly susceptible to oxidative stress. In neuroblastoma SH-SY5Y cells, used as a model for undifferentiated neurons, B-1-PhytoP's, but not F-1-PhytoP's, increased cell metabolic activity and protected them from oxidant damage caused by H2O2. Moreover, B-1-PhytoP's induced a moderate depolarization of the mitochondrial inner membrane potential. These effects were prevented by the PPAR-gamma antagonist GW9662. When SH-SY5Y cells were induced to differentiate toward a more mature phenotype, they became resistant to B-1-PhytoP activities. B-1-PhytoP's also influenced immature cells of an oligodendroglial line, as they increased the metabolic activity of oligodendrocyte progenitors and strongly accelerated their differentiation to immature oligodendrocytes, through mechanisms at least partially dependent on PPAR-gamma activity. However, B-1-PhytoP's did not protect oligodendrocyte progenitors against oxidant injury. Taken together, these data suggest that B-1-PhytoP's, through novel mechanisms involving PPAR-gamma, can specifically affect immature brain cells, such as neuroblasts and oligodendrocyte progenitors, thereby conferring neuroprotection against oxidant injury and promoting myelination. (C) 2014 Elsevier Inc. All rights reserved.
机译:通过非酶自由基催化的途径从α-亚麻酸的高等植物中形成植物甾烷(Phytop),并充当能够保护细胞免受与氧化应激相关的各种条件下的损伤的内源介质。人类暴露于植物,因为它们存在于植物食品和花粉中的相关数量。随着鼻内途径被视为环境和大脑之间的直接沟通途径,植物粘膜通过鼻粘膜的嗅觉上皮的摄取是感兴趣的。在此基础上,我们试图探讨植物对中枢神经系统未成熟细胞的潜在活动,这尤其易于氧化应激。在神经母细胞瘤SH-SY5Y细胞中,用作未分化的神经元的模型,B-1-PHYTOP,但不是F-1-PHYTOP的增加,增加细胞代谢活性并保护它们免受由H2O2引起的氧化损伤。此外,B-1-PHYTOP诱导了对线粒体内膜电位的中等去极化。 PPAR-Gamma拮抗剂GW9662预防这些效果。当诱导SH-SY5Y细胞以区分更成熟的表型时,它们变得抵抗B-1-PHYTOP活性。 B-1-PHYTOP的还影响了少突胚胎线的未成熟细胞,因为它们增加了少突胶质细胞祖细胞的代谢活性,并通过至少部分依赖于PPAR-GAMMA活性的机制,强烈地加速它们的分化与未成熟的寡核细胞。然而,B-1-Phytop的未保护oligodendrocyte祖细​​胞促进氧化剂损伤。这些数据表明,B-1-PHYTOP通过涉及PPAR-GAMMA的新机制,可以特异性地影响未成熟的脑细胞,例如神经细胞和少突细胞祖细胞祖细胞,从而赋予氧化剂损伤的神经保护和促进髓鞘。 (c)2014年elsevier Inc.保留所有权利。

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