Superoxide Anion Radical Scavenging Ability of Quaternary Ammonium Salt of Chitosan

A series of N-alkyl or N-aryl chitosan quaternary ammonium salt were prepared using 96% deacetylated chitosan. Their scavenging activities against superoxide anion radical were investigated by chemiluminescence. The IC50 values of these compounds range from 280 to 880 μg/mL, which should be attributed to their different substitutes.

过氧亚硝基-鲁米诺化学发光体系的改进

建立了一个测定过氧亚硝基阴离子 (ONOO-)化学发光的改进体系 ,测试了某些抗氧化剂清除ONOO-的作用 ,其体系的组成和启动发光的程序如下 :向pH 10 5碳酸缓冲液配的 0 0 1mol/L浓度NaN3 溶液通O330s ,取其 80 0 μl原位注入含有 10 0 μl水配样品和 10 0 μl的 0 0 0 1mol/L鲁米诺溶液中 ,启动化学发光(chemiluminescence ,CL) ,立即测定每 6秒的脉冲数 (CP6S) ,连续测定 10～ 30次 .根据实际需要 ,选其某一次的CL强度作为评判指标 ,对比抗氧化剂的活性 .该发光体系灵敏、简便、且较稳定 ,最低可检测限为 8 74μmol/L的ONOO-量 ,线性范围为 8 74～ 74 0 4μmol/L .批内变异系数 3 35 % (n =10 ) ,批间变异系数 5 5 2 % (n =10 ) .测得维生素C (Vit.C )、茶多酚 (EGCG)、原花菁素、硫脲皆有抑制CL ,即清除ONOO-的作用 .

儿茶素及其组合物清除自由基能力的研究(英文)

应用化学发光方法研究了4种儿茶素及其组合物对超氧阴离子自由基(O·2-)和羟自由基(OH·)的清除能力,并对其之间的清除能力进行了比较。结果表明:EGCG、ECG、EGC和EC的O·2-清除率为50%时的浓度SC50分别为4.2、4.9、5.2和6.2μmol/L,而OH·清除率为50%时的浓度SC50则分别为0.22、0.25、0.26和0.30μmol/L。4种儿茶素的浓度相同时,其O·2-和OH·清除率的大小顺序为:EGCG>ECG>EGC>EC。并应用正交试验设计方法来优化4种儿茶素的组合,结果表明:清除O·2-和OH·的最佳组合是EGCG∶ECG∶EGC∶EC为3∶3∶1∶1。EGCG对自由基清除率影响是最大和最显著的。在4种儿茶素的组合中,当EGCG所占的比例较大时,其组合物的自由基清除率比单体的自由基清除率要大。文中最后还模拟了不同茶叶中4种儿茶素所占的比例不同时,其清除自由基的能力的大小。本研究为利用儿茶素的不同配伍寻找一种更能发挥其药用功效的复合物提供了一条新的途经。

一种新的产生和检测过氧亚硝基的化学发光体系

研究产生和消除过氧亚硝基(Peroxynitriteanion,ONOO?)是自由基生物学和医学的一项紧迫任务。为此,建立了一种新的产生和检测ONOO?的化学发光体系,并评估了检测的最佳条件。该方法为:10mmol/L羟胺与0.5mol/LNaOH、1mmol/L、乙二胺四乙酸二钠(Disodiumethylenediaminetetraacetate,EDTA)反应产生ONOO?,随后用MnO2粉末过滤反应液以除去H2O2,然后在测量管内加入100μL抗氧化剂和860μL0.1mol/L的碳酸盐缓冲液(pH10),再加入40μL过滤后的ONOO?反应液、混匀、延迟10s,测10s化学发光强度。以抗氧化剂茶多酚、抗坏血酸、芦丁和黄芩苷作清除ONOO?的实验。结果表明,本体系是一种灵敏价廉、可靠易行的筛选ONOO?清除剂的新方法。

应用化学发光法研究大豆分离蛋白水解物的抗氧化活性

本文研究了枯草芽孢杆菌固体中性蛋白酶水解大豆分离蛋白的作用条件,应用化学发光法测定不同水解条件的产物清除超氧阴离子能力的大小,并以此确定水解的工艺条件。结果表明,大豆蛋白水解物清除超氧阴离子的能力并不是与水解度正相关。

丹参类药品质量的流动注射化学发光法评价

提出了从抗氧化效能来评价丹参类药物质量观点,采用流动注射化学发光法建立抗氧化评价体系,对3种标准抗氧化剂单体和8种丹参类药品进行抗氧化实验。将清除率与浓度作多项式四阶拟合,由拟合方程计算出各自IC50值,以IC50大小表示自由基清除能力,从而直接从抗氧化效能反应出8种丹参药品的质量。所建立的方法具有良好的稳定性和重现性。3种抗氧化单体和8种丹参药品在低浓度下的抗氧化能力与浓度呈正比,高浓度下随着浓度进一步加大,抗氧化能力不再增大。实验证明该方法简单、高效、重现性好、稳定性高,可推广用于抗氧化类药物的质量的初步评价。

Free radicals and antioxidant systems in reflux esophagitis and Barrett's esophagus

AIM: Experimental studies suggest that free radicals are involved in acid and pepsin-induced damage of esophageal mucosa. The profile and balance between free radicals and antioxidant systems in human esophagitis are unknown. METHODS: Superoxide anion and its powerful oxidant reaction with nitric oxide (peroxynitrite) generation were determined in esophageal mucosal biopsies from 101 patients with different gastro-esophageal reflux diseases and 28 controls. Activity of both superoxide dismutase (SOD) and catalase, and reduced glutathione (GSH) levels,were also assessed. Expression of Cu,ZnSOD, MnSOD and tyrosine-nitrated MnSOD were analyzed by Western blot and/or immunohistochemistry.RESULTS: The highest levels of superoxide anion generation were found in patients with severe lesions of esophagitis. Peroxynitrite generation was intense in Barrett's biopsies, weaker in esophagitis and absent/weak in normal mucosa. Expression of Cu,ZnSOD and MnSOD isoforms were present in normal mucosa and increased according to the severityof the lesion, reaching the highest level in Barrett's esophagus. However, SOD mucosal activity significantly decreased in patients with esophagitis and Barrett's esophagus, which was, at least in part, due to nitration of its tyrosine residues. Catalase activity and GSH levels were significanUy increased in mucosal specimens from patients with esophagitis and/or Barrett's esophagus.CONCLUSION: A decrease in SOD antioxidant activity leading to increased mucosal levels of superoxide anion and peroxynitrite radicals may contribute to the development of esophageal damage and Barrett's esophagus in patients with gastroesophageal reflux. Administration of SOD may be a therapeutic target in the treatment of patients with esophagitis and Barrett's esophagus.