Eral articles [95-97]. HPLC is a frequently used method with high
Eral articles [95-97]. HPLC is a frequently used method with high accuracy and sensitivity, but the procedure is complex and time-consuming making it less promising compared to ELISA in clinical use [97,98]. Measurement of urinary 8-OHdG has been found to reflect the whole body oxidative damage [78,98] and was independent of dietary influence in human [99]. Besides above oxidative stress markers of biomolecules (lipid, protein and DNA), antioxidant enzymes/molecules have been regularly used to evaluate the antioxidant defense system in human body [100]. Among these antioxidant enzymes (SOD, CAT, GPx, XO)/molecules (ascorbic acid, -carotene, Zn, Selenium, Cu, Fe), glutathione redox (GSH/GSSG) has been shown to be a reliable marker for whole body antioxidant index in disease [28,32,101,102]. It has been well established that a decrease in GSH concentration may be associated with the pathogenesis of SLE [19,22,62]. Several methods have been optimized to measure glutathione forms in human samples, including colorimetric, HPLC and GCMS. Even after 3 decades of incredible research on oxidative stress in SLE, no biomarker of oxidative stress is currently accessible for clinical use, however there are some markers, glutathione, HNE, F2 isoprostane, 8-OHdG are emerging as reliable markers for measuring oxidative stress and reflecting disease activity in SLE patients.Shah et al. Journal of Biomedical Science 2014, 21:23 http://www.jbiomedsci.com/content/21/1/Page 10 ofAntioxidant therapy for SLEAs described in the preceding sections, imbalance between oxidant and antioxidant enzymes in favor of the former and contributes to the pathogenesis of SLE. Graceful research from various investigators suggest that restoration of the redox balance using antioxidant agents (NAC) or diminishing effect of oxidative stress by intake of antioxidant nutrients, vitamins A, C and E, carotene, lycopene etc., may PubMed ID:https://www.ncbi.nlm.nih.gov/pubmed/25636517 attenuate various oxidative stress induced complication in SLE [24,34]. Among all the antioxidant treatment to restore the redox balance, NAC has shown to be a promising alternate therapy in both SLE patients and animal models. Murine models of lupus showed that NAC treatment suppressed autoantibody formation, reduced nephritis and prolonged survival [72]. Several groups have shown that the decrease in intracellular glutathione has been associated with many clinical features like, nephritis [14], CNS [103], endothelial activation in cardiovascular and cerebrovascular involvement [104] in SLE patients. Administration of NAC has shown beneficial effect in mild SLE patients in terms of decreasing lipid peroxidation, improve CNS complication [103], endothelial function [104,105] in patients with cerebrovascular involvement. Moreover, it has been shown that NAC treatment ML240 side effects control T cell function by regulating rapamycin (mTOR) mechanism [106]. Other antioxidant like cystamine (CYST) has shown to be beneficial in the treatment of (NZW ?NZW)F1 lupus-prone mice, however CYST in the treatment of SLE patients are lacking [107]. Collectively, therapeutic interventions that replenish the redox balance or decrease exposure to ROS and/or augment antioxidant defenses might be beneficial adjunctive therapy in the treatment of oxidative damage in SLE.organ damage in SLE patients. However, future controlled clinical studies are required to test the broad spectrum of the NAC effect and its mechanism of action in combination with conventional therapy in SLE patients. Moreover, t.
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