Lipopolysaccharide (LPS) labeled with Alexa 488 hydrazide as a novel probe for LPS binding studies.

Cytometry Pub Date : 2000-12-01

K Triantafilou, M Triantafilou, N Fernandez

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Abstract

Background: Lipopolysaccharide (LPS) comprises the outer cell wall of all gram-negative bacteria. It consists of an oligosaccharide core and lipid A. All LPS-induced biological responses are lipid A-dependent. Once released, LPS triggers a host systemic inflammatory response that leads to septic shock. Binding studies have helped to reveal some of the molecular interactions behind septic shock. Such studies have employed methods of labeling bacterial LPS with either radiochemicals or fluorescent dyes. Poor labeling of the LPS has resulted in the use of high concentrations of LPS in order to detect its binding.

Methods: In this study, we have devised a new methodology for labeling LPS, using hydrazide and galactose oxidase in order to oxidize galactose residues to aldehyde groups in the oligosaccharide core of the LPS.

Results: We have managed to generate a conjugate that is highly fluorescent (LPS-to-Alexa 488 labeling ratio of 1:5) and biologically active.

Conclusions: For the first time, this probe has enabled us to detect LPS binding even at pg/ml concentrations. Using this methodology, any Alexa-hydrazide dye can be conjugated to LPS, providing us with novel probes for imaging studies.

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Alexa 488肼标记的脂多糖(LPS)作为LPS结合研究的新探针。

背景:脂多糖(LPS)由所有革兰氏阴性菌的外细胞壁组成。它由低聚糖核和脂质a组成。所有脂质a依赖于脂质a诱导的生物反应。一旦释放，脂多糖引发宿主全身炎症反应，导致感染性休克。结合研究有助于揭示脓毒性休克背后的一些分子相互作用。这些研究采用了用放射性化学物质或荧光染料标记细菌LPS的方法。由于对LPS的标记较差，因此需要使用高浓度的LPS来检测其结合。方法:在本研究中，我们设计了一种新的标记LPS的方法，利用肼和半乳糖氧化酶将LPS低聚糖核心的半乳糖残基氧化为醛基。结果:我们成功地生成了高荧光(LPS-to-Alexa 488标记比为1:5)和生物活性的缀合物。结论:该探针首次使我们能够在pg/ml浓度下检测LPS结合。使用这种方法，任何亚历克斯酰肼染料都可以偶联到LPS上，为成像研究提供了新的探针。

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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Cytometry

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