Thiol and Glutathione Homeostasis Parameters as Plasma Biomarkers of Oxidative Stress in Age-Related Macular Degeneration

Sardar Bicili, Mehmed Uğur Işık, M. Alışık
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引用次数: 1

Abstract

Purpose: To determine extracellular thiol homeostasis and intracellular glutathione homeostasis as a plasma biomarker for oxidative stress and to compare these parameters in non-exudative/exudative AMD patients and healthy individuals. Method: 30 non-exudative AMD, 28 exudative AMD, and 36 age-matched healthy control subjects enrolled to the study. Extracellular total thiol, native thiol, disulphide amounts and intracellular oxidized/reduced glutathione levels of subjects were determined, and disulphide/thiol and oxidized/reduced glutathione percent ratios were calculated. Results: In comparison with the control group both non-exudative and exudative AMD patients had higher plasma disulfide levels (20.5(4.8) vs. 4(3.1), p<0.001 and 22.5(7.5) vs. 15.4(3.1), p<0.001; respectively) and higher disulphide/thiol (6.64(2.57) vs. 5.4(1.9), p=0,002 and 7.05(3.14) vs. 5.4(1.9), p<0.001; respectively), in addition to higher oxidized glutathione levels (64.6(40.8) vs. 27.3(21.9), p=0.015 and 73.9(44.1) vs. 27.3(21.9), p=0.002; respectively) and oxidized/reduced glutathione ratio(6.48(8.35) vs. 3.14(3.31), p=0,034 and 10.21(10.28) vs. 3.14(3.31), p=0,003; respectively). Although there was no significant difference between groups in term of total thiol (361.5(61.6), 355.1(87.7) and 340.9(72.4), respectively, p=0,585); native thiol (318.8(62.4), 307.1(73.7) and 299.3(79.2), respectively, p=0,382); total reduced glutathione (986.3(282.1), 871.5(271.6) and 881.8(290.9), respectively, p=0.344) and native reduced glutathione (873.4(367.6), 723.7(379.0) and 797.2(307.5), respectively, p=0,113). However, there was no significant difference between non-exudative and exudative AMD groups in terms of both extracellular thiol homeostasis and intracellular glutathione homeostasis. Conclusion: Greater extent of both extracellular disulphide and intracellular oxidized glutathione production occurred in AMD patients compared to age-matched healthy controls indicates the role of increased oxidative stress in AMD development. Further studies are needed to confirm the pathophysiologic role of homeostasis in these buffer systems in AMD.
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硫醇和谷胱甘肽动态平衡参数作为年龄相关性黄斑变性中氧化应激的血浆生物标志物
目的:测定细胞外硫醇稳态和细胞内谷胱甘肽稳态作为氧化应激的血浆生物标志物,并比较非渗出性/渗出性AMD患者和健康人的这些参数。方法:30例非渗出性AMD, 28例渗出性AMD, 36例年龄匹配的健康对照。测定细胞外总硫醇、天然硫醇、二硫含量和细胞内氧化/还原性谷胱甘肽水平,并计算二硫/硫醇和氧化/还原性谷胱甘肽的百分比比率。结果:与对照组相比,非渗出性和渗出性AMD患者血浆二硫化物水平均较高(20.5(4.8)比4(3.1),p<0.001; 22.5(7.5)比15.4(3.1),p<0.001;较高的二硫/硫醇(6.64(2.57)比5.4(1.9),p= 0.002和7.05(3.14)比5.4(1.9),p<0.001;分别),除了更高的氧化谷胱甘肽水平(64.6(40.8)比27.3(21.9),p=0.015和73.9(44.1)比27.3(21.9),p=0.002;氧化/还原谷胱甘肽比值(6.48(8.35)vs. 3.14(3.31), p= 0.034, 10.21(10.28) vs. 3.14(3.31), p= 0.003;分别)。总硫醇含量分别为361.5(61.6)、355.1(87.7)和340.9(72.4),组间差异无统计学意义(p= 0.585);天然硫醇(318.8(62.4),307.1(73.7)和299.3(79.2),p=0,382);总还原性谷胱甘肽(986.3(282.1)、871.5(271.6)、881.8(290.9),p=0.344)和天然还原性谷胱甘肽(873.4(367.6)、723.7(379.0)、797.2(307.5),p= 0.113)。然而,在细胞外硫醇和细胞内谷胱甘肽的稳态方面,非渗出性和渗出性AMD组之间没有显著差异。结论:与年龄匹配的健康对照相比,AMD患者细胞外二硫化物和细胞内氧化谷胱甘肽的产生程度更高,这表明氧化应激增加在AMD发展中的作用。需要进一步的研究来证实这些缓冲系统在AMD中的病理生理作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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