Literature DB >> 28454648

The SIGLEC14 null allele is associated with Mycobacterium tuberculosis- and BCG-induced clinical and immunologic outcomes.

Andrew D Graustein1, David J Horne2, Jerry J Fong3, Flavio Schwarz3, Heather C Mefford2, Glenna J Peterson2, Richard D Wells2, Munyaradzi Musvosvi4, Muki Shey4, Willem A Hanekom4, Mark Hatherill4, Thomas J Scriba4, Nguyen Thuy Thuong Thuong5, Nguyen Thi Hoang Mai5, Maxine Caws5, Nguyen Duc Bang6, Sarah J Dunstan7, Guy E Thwaites8, Ajit Varki3, Takashi Angata9, Thomas R Hawn2.   

Abstract

Humans exposed to Mycobacterium tuberculosis (Mtb) have variable susceptibility to tuberculosis (TB) and its outcomes. Siglec-5 and Siglec-14 are members of the sialic-acid binding lectin family that regulate immune responses to pathogens through inhibitory (Siglec-5) and activating (Siglec-14) domains. The SIGLEC14 coding sequence is deleted in a high proportion of individuals, placing a SIGLEC5-like gene under the expression of the SIGLEC14 promoter (the SIGLEC14 null allele) and causing expression of a Siglec-5 like protein in monocytes and macrophages. We hypothesized that the SIGLEC14 null allele was associated with Mtb replication in monocytes, T-cell responses to the BCG vaccine, and clinical susceptibility to TB. The SIGLEC14 null allele was associated with protection from TB meningitis in Vietnamese adults but not with pediatric TB in South Africa. The null allele was associated with increased IL-2 and IL-17 production following ex-vivo BCG stimulation of blood from 10 week-old South African infants vaccinated with BCG at birth. Mtb replication was increased in THP-1 cells overexpressing either Siglec-5 or Siglec-14 relative to controls. To our knowledge, this is the first study to demonstrate an association between SIGLEC expression and clinical TB, Mtb replication, or BCG-specific T-cell cytokines.
Copyright © 2017 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  Mycobacterium tuberculosis; SIGLEC; Tuberculosis

Mesh:

Substances:

Year:  2017        PMID: 28454648      PMCID: PMC7289319          DOI: 10.1016/j.tube.2017.02.005

Source DB:  PubMed          Journal:  Tuberculosis (Edinb)        ISSN: 1472-9792            Impact factor:   3.131


  58 in total

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10.  HLA class II sequence variants influence tuberculosis risk in populations of European ancestry.

Authors:  Gardar Sveinbjornsson; Daniel F Gudbjartsson; Bjarni V Halldorsson; Karl G Kristinsson; Magnus Gottfredsson; Jeffrey C Barrett; Larus J Gudmundsson; Kai Blondal; Arnaldur Gylfason; Sigurjon Axel Gudjonsson; Hafdis T Helgadottir; Adalbjorg Jonasdottir; Aslaug Jonasdottir; Ari Karason; Ljiljana Bulat Kardum; Jelena Knežević; Helgi Kristjansson; Mar Kristjansson; Arthur Love; Yang Luo; Olafur T Magnusson; Patrick Sulem; Augustine Kong; Gisli Masson; Unnur Thorsteinsdottir; Zlatko Dembic; Sergey Nejentsev; Thorsteinn Blondal; Ingileif Jonsdottir; Kari Stefansson
Journal:  Nat Genet       Date:  2016-02-01       Impact factor: 38.330
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Review 2.  Heterogeneity in tuberculosis.

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4.  Human M1 macrophages express unique innate immune response genes after mycobacterial infection to defend against tuberculosis.

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5.  Common determinants of severe Covid-19 infection are explicable by SARS-CoV-2 secreted glycoprotein interaction with the CD33-related Siglecs, Siglec-3 and Siglec-5/14.

Authors:  Simon H Murch
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6.  Toll-like receptor chaperone HSP90B1 and the immune response to Mycobacteria.

Authors:  Andrew D Graustein; Elizabeth A Misch; Munyaradzi Musvosvi; Muki Shey; Javeed A Shah; Chetan Seshadri; Augustine Ajuogu; Kathryn Bowman; Humphrey Mulenga; Ashley Veldsman; Willem A Hanekom; Mark Hatherill; Thomas J Scriba; Thomas R Hawn
Journal:  PLoS One       Date:  2018-12-14       Impact factor: 3.240

Review 7.  Possible Influences of Endogenous and Exogenous Ligands on the Evolution of Human Siglecs.

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8.  An integrative genomics approach identifies KDM4 as a modulator of trained immunity.

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