Abstract
Background: From the simplest bacteria to the highest complex mammals, including humans, every single cell is covered by a dense coat of glycans. Glycans are involved in almost every biological process that takes place in our body, playing a central role in the communication between cells and their environment. Glycans are also involved in infectious diseases, which arise from the specific interaction between glycans of the pathogen cell coat and specific receptors on the host cell or vice versa.
Objective: The understanding of the mechanisms governing these specific carbohydrateprotein interactions, at atomic and molecular levels, is crucial to develop new drugs able to block the infection and to avoid the disease.
Methods: Recent advances in biophysical techniques allow for a complete picture of the hostpathogen infection event, unveiling the key aspects of the molecular interaction and, thus, providing an opportunity to interfere with it.
Conclusion: In this general review, we discuss some recent contributions, providing a summary of what we consider the most innovative and inspiring research lines to the field.
Keywords: Glycans, NMR, X-ray, bacterial infection, lectin, molecular recognition, viral infection.
Current Medicinal Chemistry
Title:Glycans in Infectious Diseases. A Molecular Recognition Perspective
Volume: 24 Issue: 36
Author(s): Luca Unione, Ana Gimeno, Pablo Valverde, Ilaria Calloni, Helena Coelho, Stefania Mirabella, Ana Poveda, Ana Arda and Jesus Jimenez-Barbero*
Affiliation:
- CIC bioGUNE, Bizkaia Technology Park, Building 801A, 48170 Derio,Spain
Keywords: Glycans, NMR, X-ray, bacterial infection, lectin, molecular recognition, viral infection.
Abstract: Background: From the simplest bacteria to the highest complex mammals, including humans, every single cell is covered by a dense coat of glycans. Glycans are involved in almost every biological process that takes place in our body, playing a central role in the communication between cells and their environment. Glycans are also involved in infectious diseases, which arise from the specific interaction between glycans of the pathogen cell coat and specific receptors on the host cell or vice versa.
Objective: The understanding of the mechanisms governing these specific carbohydrateprotein interactions, at atomic and molecular levels, is crucial to develop new drugs able to block the infection and to avoid the disease.
Methods: Recent advances in biophysical techniques allow for a complete picture of the hostpathogen infection event, unveiling the key aspects of the molecular interaction and, thus, providing an opportunity to interfere with it.
Conclusion: In this general review, we discuss some recent contributions, providing a summary of what we consider the most innovative and inspiring research lines to the field.
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Cite this article as:
Unione Luca, Gimeno Ana, Valverde Pablo, Calloni Ilaria, Coelho Helena, Mirabella Stefania, Poveda Ana, Arda Ana and Jimenez-Barbero Jesus*, Glycans in Infectious Diseases. A Molecular Recognition Perspective, Current Medicinal Chemistry 2017; 24 (36) . https://dx.doi.org/10.2174/0929867324666170217093702
DOI https://dx.doi.org/10.2174/0929867324666170217093702 |
Print ISSN 0929-8673 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-533X |
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