Literature DB >> 30037791

Mycobacterium tuberculosis Lipoprotein and Lipoglycan Binding to Toll-Like Receptor 2 Correlates with Agonist Activity and Functional Outcomes.

Supriya Shukla1, Edward T Richardson1,2, Michael G Drage1,2, W Henry Boom1,3,4, Clifford V Harding5,3,4.   

Abstract

Mycobacterium tuberculosis causes persistent infection due to its ability to evade host immune responses. M. tuberculosis induces Toll-like receptor 2 (TLR2) signaling, which influences immune responses to M. tuberculosis TLR2 agonists expressed by M. tuberculosis include lipoproteins (e.g., LprG), the glycolipid phosphatidylinositol mannoside 6 (PIM6), and the lipoglycan lipomannan (LM). Another M. tuberculosis lipoglycan, mannose-capped lipoarabinomannan (ManLAM), lacks TLR2 agonist activity. In contrast, PILAM, from Mycobacterum smegmatis, does have TLR2 agonist activity. Our understanding of how M. tuberculosis lipoproteins and lipoglycans interact with TLR2 is limited, and binding of these molecules to TLR2 has not been measured directly. Here, we directly measured M. tuberculosis lipoprotein and lipoglycan binding to TLR2 and its partner receptor, TLR1. LprG, LAM, and LM were all found to bind to TLR2 in the absence of TLR1, but not to TLR1 in the absence of TLR2. Trimolecular interactions were revealed by binding of TLR2-LprG or TLR2-PIM6 complexes to TLR1, whereas binding of TLR2 to TLR1 was not detected in the absence of the lipoprotein or glycolipid. ManLAM exhibited low affinity for TLR2 in comparison to PILAM, LM, and LprG, which correlated with reduced ability of ManLAM to induce TLR2-mediated extracellular-signal-regulated kinase (ERK) activation and tumor necrosis factor alpha (TNF-α) secretion in macrophages. We provide the first direct affinity measurement and kinetic analysis of M. tuberculosis lipoprotein and lipoglycan binding to TLR2. Our results demonstrate that binding affinity correlates with the functional ability of agonists to induce TLR2 signaling.
Copyright © 2018 American Society for Microbiology.

Entities:  

Keywords:  Mycobacterium tuberculosis; Toll-like receptor (TLR); agonist; immune response; lipoglycan; lipoprotein

Mesh:

Substances:

Year:  2018        PMID: 30037791      PMCID: PMC6204744          DOI: 10.1128/IAI.00450-18

Source DB:  PubMed          Journal:  Infect Immun        ISSN: 0019-9567            Impact factor:   3.441


  53 in total

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2.  Transformation of mouse bone marrow cells by transfection with a human oncogene related to c-myc is associated with the endogenous production of macrophage colony stimulating factor 1.

Authors:  M D Sklar; A Tereba; B D Chen; W S Walker
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3.  The CD14 ligands lipoarabinomannan and lipopolysaccharide differ in their requirement for Toll-like receptors.

Authors:  T K Means; E Lien; A Yoshimura; S Wang; D T Golenbock; M J Fenton
Journal:  J Immunol       Date:  1999-12-15       Impact factor: 5.422

4.  Mannosylated lipoarabinomannans inhibit IL-12 production by human dendritic cells: evidence for a negative signal delivered through the mannose receptor.

Authors:  J Nigou; C Zelle-Rieser; M Gilleron; M Thurnher; G Puzo
Journal:  J Immunol       Date:  2001-06-15       Impact factor: 5.422

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Authors:  Clifford V Harding; W Henry Boom
Journal:  Nat Rev Microbiol       Date:  2010-04       Impact factor: 60.633

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Authors:  Iain C Sutcliffe; Dean J Harrington
Journal:  FEMS Microbiol Rev       Date:  2004-11       Impact factor: 16.408

7.  Acylation state of the phosphatidylinositol hexamannosides from Mycobacterium bovis bacillus Calmette Guerin and mycobacterium tuberculosis H37Rv and its implication in Toll-like receptor response.

Authors:  Martine Gilleron; Valérie F J Quesniaux; Germain Puzo
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Review 8.  TLR2 - promiscuous or specific? A critical re-evaluation of a receptor expressing apparent broad specificity.

Authors:  Ulrich Zähringer; Buko Lindner; Seiichi Inamura; Holger Heine; Christian Alexander
Journal:  Immunobiology       Date:  2008-03-28       Impact factor: 3.144

9.  Mycobacterium tuberculosis lipoprotein LprG binds lipoarabinomannan and determines its cell envelope localization to control phagolysosomal fusion.

Authors:  Supriya Shukla; Edward T Richardson; Jaffre J Athman; Libin Shi; Pamela A Wearsch; David McDonald; Niaz Banaei; W Henry Boom; Mary Jackson; Clifford V Harding
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Authors:  Christopher T Johndrow; Michael F Goldberg; Alison J Johnson; Tony W Ng; Shajo Kunnath-Velayudhan; Gregoire Lauvau; Daniel H Kaplan; Graeme H Gossel; Ulrich D Kadolsky; Andrew J Yates; John Chan; William R Jacobs; Steven A Porcelli
Journal:  J Immunol       Date:  2018-11-19       Impact factor: 5.422

Review 2.  Host Immune Response and Novel Diagnostic Approach to NTM Infections.

Authors:  Yuko Abe; Kiyoharu Fukushima; Yuki Hosono; Yuki Matsumoto; Daisuke Motooka; Naoko Ose; Shota Nakamura; Seigo Kitada; Hiroshi Kida; Atsushi Kumanogoh
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Authors:  Michael Hohl; Sille Remm; Haig A Eskandarian; Michael Dal Molin; Fabian M Arnold; Lea M Hürlimann; Andri Krügel; Georg E Fantner; Peter Sander; Markus A Seeger
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4.  Recombinant CsHscB of carcinogenic liver fluke Clonorchis sinensis induces IL-10 production by binding with TLR2.

Authors:  Chao Yan; Fan Fang; Yu-Zhao Zhang; Xin Dong; Jing Wu; Hai-Liang Liu; Chun-Yang Fan; Stephane Koda; Bei-Bei Zhang; Qian Yu; Liang Wang; Yu-Gang Wang; Jia-Xu Chen; Kui-Yang Zheng
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Review 5.  Lipoarabinomannan as a Point-of-Care Assay for Diagnosis of Tuberculosis: How Far Are We to Use It?

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6.  High Dimensional Immune Profiling Reveals Different Response Patterns in Active and Latent Tuberculosis Following Stimulation With Mycobacterial Glycolipids.

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7.  Screening of Long Non-coding RNAs Biomarkers for the Diagnosis of Tuberculosis and Preliminary Construction of a Clinical Diagnosis Model.

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8.  Novel Role for Macrophage Galactose-Type Lectin-1 to Regulate Innate Immunity against Mycobacterium tuberculosis.

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Review 9.  Antibiotics and resistance: the two-sided coin of the mycobacterial cell wall.

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Review 10.  Host and Pathogen Communication in the Respiratory Tract: Mechanisms and Models of a Complex Signaling Microenvironment.

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