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  • The nontypeable haemophilus influenzae major adhesin hia is a dual-function lectin that binds to human-specific respiratory tract sialic acid glycan receptors

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    Author(s)
    Atack, JM
    Day, CJ
    Poole, J
    Brockman, KL
    Timms, JRL
    Winter, LE
    Haselhorst, T
    Bakaletz, LO
    Barenkamp, SJ
    Jennings, MP
    Griffith University Author(s)
    Atack, John M.
    Jennings, Michael P.
    Haselhorst, Thomas E.
    Day, Christopher J.
    Poole, Jessica
    Year published
    2020
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    Abstract
    NTHi is a human-adapted pathogen that colonizes the human respiratory tract. Strains of NTHi express multiple adhesins; however, there is a unique, mutually exclusive relationship between the major adhesins Hia and HMW1 and HMW2 (HMW1/2). Approximately 25% of NTHi strains express Hia, a phase-variable autotransporter protein that has a critical role in colonization of the host nasopharynx. The remaining 75% of strains express HMW1/2. Previous work has shown that the HMW1 and HMW2 proteins mediate binding to 2-3- and 2-6-linked sialic acid glycans found in the human respiratory tract. Here, we show that the high-affinity ...
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    NTHi is a human-adapted pathogen that colonizes the human respiratory tract. Strains of NTHi express multiple adhesins; however, there is a unique, mutually exclusive relationship between the major adhesins Hia and HMW1 and HMW2 (HMW1/2). Approximately 25% of NTHi strains express Hia, a phase-variable autotransporter protein that has a critical role in colonization of the host nasopharynx. The remaining 75% of strains express HMW1/2. Previous work has shown that the HMW1 and HMW2 proteins mediate binding to 2-3- and 2-6-linked sialic acid glycans found in the human respiratory tract. Here, we show that the high-affinity binding domain of Hia, binding domain 1 (BD1), is responsible for binding to α2-6-sialyllactosamine (2-6 SLN) glycans. BD1 is highly specific for glycans that incorporate the form of sialic acid expressed by humans, N-acetylneuraminic acid (Neu5Ac). We further show that Hia has lower-affinity binding activity for 2-3-linked sialic acid and that this binding activity is mediated via a distinct domain. Thus, Hia with its dual binding activities functionally mimics the combined activities of the HMW1 and HMW2 adhesins. In addition, we show that Hia has a role in biofilm formation by strains of NTHi that express the adhesin. Knowledge of the binding affinity of this major NTHi adhesin and putative vaccine candidate will direct and inform development of future vaccines and therapeutic strategies for this important pathogen.
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    Journal Title
    mBio
    Volume
    11
    Issue
    6
    DOI
    https://doi.org/10.1128/mBio.02714-20
    Copyright Statement
    © 2020 Atack et al. This is an openaccess article distributed under the terms of the Creative Commons Attribution 4.0 International license.
    Subject
    Microbiology
    COPD
    NTHi
    adhesin
    autotransporter proteins
    bacterial pathogen
    Publication URI
    http://hdl.handle.net/10072/400807
    Collection
    • Journal articles

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