Chemical Lectinology: Tools for Probing the Ligands and Dynamics of Mammalian Lectins In Vivo.

Chemistry & biology Pub Date : 2015-08-20 Epub Date: 2015-08-06 DOI:10.1016/j.chembiol.2015.07.009

Brian Belardi, Carolyn R Bertozzi

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引用次数: 21

Abstract

The importance and complexity associated with the totality of glycan structures, i.e. the glycome, has garnered significant attention from chemists and biologists alike. However, what is lacking from this biochemical picture is how cells, tissues, and organisms interpret glycan patterns and translate this information into appropriate responses. Lectins, glycan-binding proteins, are thought to bridge this gap by decoding the glycome and dictating cell fate based on the underlying chemical identities and properties of the glycome. Yet, our understanding of the in vivo ligands and function for most lectins is still incomplete. This review focuses on recent advances in chemical tools to study the specificity and dynamics of mammalian lectins in live cells. A picture emerges of lectin function that is highly sensitive to its organization, which in turn drastically shapes immunity and cancer progression. We hope this review will inspire biologists to make use of these new techniques and stimulate chemists to continue developing innovative approaches to probe lectin biology in vivo.

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化学凝集学:探究哺乳动物体内凝集素配体和动力学的工具。

聚糖结构(即糖原)的重要性和复杂性引起了化学家和生物学家的极大关注。然而，从这一生物化学图景中缺少的是细胞、组织和生物体如何解释聚糖模式并将这些信息转化为适当的反应。凝集素，一种与聚糖结合的蛋白质，被认为通过解码糖类，并根据糖类潜在的化学特性和特性来决定细胞的命运，从而弥补了这一差距。然而，我们对大多数凝集素的体内配体和功能的了解仍然不完整。本文综述了近年来利用化学手段研究哺乳动物凝集素在活细胞中的特异性和动力学的最新进展。凝集素的功能对其组织高度敏感，这反过来又极大地影响了免疫和癌症的进展。我们希望这篇综述能够启发生物学家利用这些新技术，并刺激化学家继续开发新的方法来探索凝集素在体内的生物学。

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Chemistry & biology 生物-生化与分子生物学

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4-8 weeks