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规划、评估和审核受体信号研究,以评估透明质酸的大小依赖性和特异性。

Planning, evaluating and vetting receptor signaling studies to assess hyaluronan size-dependence and specificity.

作者信息

Weigel Paul H

机构信息

Department of Biochemistry & Molecular Biology, University of Oklahoma Health Sciences Center, Oklahoma City, OK 73104, USA.

出版信息

Glycobiology. 2017 Sep 1;27(9):796-799. doi: 10.1093/glycob/cwx056.

DOI:10.1093/glycob/cwx056
PMID:28633290
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5881708/
Abstract

Exciting discoveries in many diverse fields of hyaluronan (HA) biology over the last 40 years have centered around the ability of HA to bind cell surface HA receptors (e.g., CD44, Layilin, LYVE-1, HARE/Stab2 and RHAMM) and sometimes also to activate intracellular signal transduction pathways, frequently involving ERK1/2. Although perplexing, a major characteristic of HA-mediated signal pathway activation for some receptors has been a dependence on the size of the bound HA. Receptors that directly interact with HA, which may not include TLR2/4, bind very well to any HA molecule >8-20 sugars, depending on the receptor. Despite their ability to bind virtually any size HA, only HA chains of a particular mass range can activate receptor-mediated cell signaling. Many studies have demonstrated parts of this emerging story by utilizing different: HA receptors, cell types, animal models, HA sources, HA sizes, assays to assess HA mass and varying controls to verify HA specificity or HA size-dependence. Recent reports have highlighted issues with potential endotoxin contamination of HA fragments, especially those generated by hyaluronidase digestion. Also, researchers unfamiliar with HA polydispersity must adjust to working with, and interpreting data for, preparations without a unique molecular mass (molecular weight). The confusion, uncertainty and skepticism generated by these and other factors has hindered the development of a general consensus about HA-specific and HA-size dependent receptor activation. An overview of issues, suggested strategies and validating controls is presented to aid those planning an HA-mediated receptor signaling study or those trying to evaluate the literature.

摘要

在过去40年里,透明质酸(HA)生物学众多不同领域的激动人心的发现都围绕着HA结合细胞表面HA受体(如CD44、Layilin、LYVE-1、HARE/Stab2和RHAMM)的能力,有时还涉及激活细胞内信号转导通路,这常常涉及ERK1/2。尽管令人困惑,但HA介导的某些受体信号通路激活的一个主要特征是依赖于结合的HA的大小。直接与HA相互作用的受体(可能不包括TLR2/4),根据受体的不同,能很好地结合任何大于8 - 20个糖的HA分子。尽管它们能够结合几乎任何大小的HA,但只有特定质量范围的HA链才能激活受体介导的细胞信号传导。许多研究通过使用不同的HA受体、细胞类型、动物模型、HA来源、HA大小、评估HA质量的测定方法以及不同的对照来验证HA特异性或HA大小依赖性,揭示了这个新出现的情况的部分内容。最近的报告强调了HA片段潜在内毒素污染的问题,特别是那些由透明质酸酶消化产生的片段。此外,不熟悉HA多分散性的研究人员必须适应处理没有独特分子量(分子重量)的制剂并解释其数据。这些因素以及其他因素所产生的困惑、不确定性和怀疑阻碍了关于HA特异性和HA大小依赖性受体激活形成普遍共识。本文概述了相关问题、建议的策略和验证对照,以帮助那些计划进行HA介导的受体信号研究的人员或那些试图评估文献的人员。

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Glycobiology. 2017 Sep 1;27(9):868-877. doi: 10.1093/glycob/cwx039.
2
Hyaluronan synthase assembles hyaluronan on a [GlcNAc(β1,4)]n-GlcNAc(α1→)UDP primer and hyaluronan retains this residual chitin oligomer as a cap at the nonreducing end.透明质酸合酶在 [GlcNAc(β1,4)]n-GlcNAc(α1→)UDP 引物上组装透明质酸,透明质酸在非还原端保留这种残余几丁寡糖作为帽。
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Endotoxin free hyaluronan and hyaluronan fragments do not stimulate TNF-α, interleukin-12 or upregulate co-stimulatory molecules in dendritic cells or macrophages.无内毒素透明质酸和透明质酸片段不会刺激树突状细胞或巨噬细胞中的 TNF-α、白细胞介素-12 或上调共刺激分子。
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Recombinant human hyaluronidase PH20 does not stimulate an acute inflammatory response and inhibits lipopolysaccharide-induced neutrophil recruitment in the air pouch model of inflammation.重组人透明质酸酶 PH20 不会刺激急性炎症反应,并抑制脂多糖诱导的炎症气囊模型中的中性粒细胞募集。
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6
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Improved agarose gel electrophoresis method and molecular mass calculation for high molecular mass hyaluronan.高分子量透明质酸的改良琼脂糖凝胶电泳方法及分子量计算
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