Improved high-performance liquid chromatographic method to estimate aminosugars and its application to glycosaminoglycan determination in plasma and serum

Giuseppe M Campo , Salvatore Campo , Alida M Ferlazzo , Rosalia Vinci , Alberto Calatroni
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引用次数: 42

Abstract

An improved isocratic high-performance liquid chromatography (HPLC) method for the analysis of l-(−)-fucose, d-(+)-galactosamine, d-(+)-glucosamine, d-(+)-galactose, obtained by hydrolysis of glycosaminoglycans (GAGs) and d-(+)-glucose and d-(+)-mannose is described. The presence in circulation of GAGs, acid polysaccharide sequences of alternate monosaccharide units, aminosugar and uronic acid (galactose in keratan sulfate), has been measured in terms of their sugar components. To evaluate concentration of these circulating sugars we considered blood samples obtained from healthy humans. Plasma or serum was filtered through weak anion-exchange Ecteola-cellulose either untreated or after mild alkaline treatment. GAGs adhering to resin were recovered by salt elution, and desalted on Bio-Gel P-2 resin. GAG fractionation by charge was carried out on a strong anion exchanger. GAG composition was evaluated in terms of galactose and aminosugars, measured in HPLC by the proposed procedure using anion-exchange resin and pulsed amperometric detection. The mobile phase consisted of 0.02 M NaOH and elution was carried out at flow-rate of 1.0 ml/min. The amperometric detector was set as follows: t1 (0.5 s), E1 (+0.1 V); t2 (0.09 s), E2 (+0.6 V); t3 (0.05 s), E3 (−0.6 V). The analysis required 14 min. Calibration standard curves for the six analytes were linear from 0.25 to 40 μM. RSD values for intra- and inter-day variabilities were ≤5.3% at concentrations between 0.25 and 40 μM. Accuracy, expressed as percentage error, ranged from −16 to 14%. The method was specific and sensitive with quantitation limits of 1 pmol for l-(−)-fucose, d-galactosamine and d-glucosamine, 3 pmol for d-(+)-galactose and d-(+)-glucose and 5 pmol for d-(+)-mannose. The results of the assay showed higher GAG concentrations in serum than in plasma.

改进高效液相色谱法测定氨基糖及其在血浆和血清中糖胺聚糖测定中的应用
本文描述了一种改进的高效液相色谱(HPLC)方法,用于分析糖胺聚糖(GAGs)和d-(+)-葡萄糖和d-(+)-甘露糖水解得到的l-(−)-焦糖、d-(+)-半乳糖、d-(+)-氨基葡萄糖、d-(+)-半乳糖。在循环中存在的GAGs,交替单糖单位的酸多糖序列,氨基糖和醛酸(硫酸角蛋白中的半乳糖),已经根据它们的糖成分进行了测量。为了评估这些循环糖的浓度,我们考虑了健康人的血液样本。血浆或血清通过弱阴离子交换ecteola -纤维素过滤,无论是未经处理还是经过轻度碱性处理。采用盐洗脱法回收吸附在树脂上的gag,并在Bio-Gel P-2树脂上进行脱盐处理。在强阴离子交换器上进行了带电GAG分馏。用半乳糖和氨基糖来评价GAG的组成,用阴离子交换树脂和脉冲安培检测的高效液相色谱法测定GAG的组成。流动相为0.02 M NaOH,流速为1.0 ml/min。安培检测器设置为:t1 (0.5 s), E1 (+0.1 V);t2 (0.09 s), E2 (+0.6 V);3 (0.05 s), E3(−0.6 V)。分析时间为14 min。6种分析物的校准标准曲线在0.25 ~ 40 μM范围内呈线性。在0.25 ~ 40 μM浓度范围内,日内和日间变异的RSD值≤5.3%。准确度,以百分比误差表示,范围从- 16%到14%。该方法特异性强,灵敏度高,l-(−)-焦糖、d-半乳糖和d-氨基葡萄糖的定量限为1 pmol, d-(+)-半乳糖和d-(+)-葡萄糖的定量限为3 pmol, d-(+)-甘露糖的定量限为5 pmol。结果显示血清中GAG浓度高于血浆。
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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