Fitua Al-Saedi scite author profile

Bacterial adhesion to host receptors is an early and essential step in bacterial colonization, and the nature of adhesin–receptor interactions determines bacterial localization and thus the outcome of these interactions. Here, we determined the host receptors for the multivalent adhesion molecule (MAM) from the gut commensal Escherichia coli HS (MAMHS), which contains an array of seven mammalian cell entry domains. The MAMHS adhesin interacted with a range of host receptors, through recognition of a shared 3-O-sulfogalactosyl moiety. This functional group is also found in mucin, a component of the intestinal mucus layer and thus one of the prime adherence targets for commensal E. coli. Mucin gels impeded the motility of E. coli by acting as a physical barrier, and the barrier effect was enhanced by specific interactions between mucin and MAMHS in a sulfation-dependent manner. Desulfation of mucin by pure sulfatase or the sulfatase-producing commensal Bacteroides thetaiotaomicron decreased binding of E. coli to mucin and increased the attachment of bacteria to the epithelial surface via interactions with surface-localized sulfated lipid and protein receptors. Together, our results demonstrate that the E. coli adhesin MAMHS facilitates retention of a gut commensal by attachment to mucin. They further suggest that the amount of sulfatase secreted by mucin-foraging bacteria such as B. thetaiotaomicron, inhabiting the same niche, may affect the capacity of the mucus barrier to retain commensal E. coli.

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Displacement of Pathogens by an Engineered Bacterium Is a Multifactorial Process That Depends on Attachment Competition and Interspecific Antagonism

Al-Saedi

Stones

Vaz

et al. 2016

Infect Immun

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Pathogen attachment to host cells is a key process during infection, and inhibition of pathogen adhesion is a promising approach to the prevention of infectious disease. We have previously shown that multivalent adhesion molecules (MAMs) are abundant in both pathogenic and commensal bacterial species, mediate early attachment to host cells, and can contribute to virulence. Here, we investigated the efficacy of an engineered bacterium expressing a commensal MAM on its surface in preventing pathogen attachment and pathogen-mediated cytotoxicity in a tissue culture infection model. We were able to dissect the individual contributions of adhesion and interspecific antagonism on the overall outcome of infection for a range of different pathogens by comparison with the results obtained with a fully synthetic adhesion inhibitor. We found that the potential of the engineered bacterium to outcompete the pathogen is not always solely dependent on its ability to hinder host attachment but, depending on the pathogenic species, may also include elements of interspecific antagonism, such as competition for nutrients and its ability to cause a loss of fitness due to production of antimicrobial factors.

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Biomimetic Materials to Characterize Bacteria-host Interactions

Stones

Al-Saedi

Vaz

et al. 2015

JoVE

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Bacterial attachment to host cells is one of the earliest events during bacterial colonization of host tissues and thus a key step during infection. The biochemical and functional characterization of adhesins mediating these initial bacteria-host interactions is often compromised by the presence of other bacterial factors, such as cell wall components or secreted molecules, which interfere with the analysis. This protocol describes the production and use of biomimetic materials, consisting of pure recombinant adhesins chemically coupled to commercially available, functionalized polystyrene beads, which have been used successfully to dissect the biochemical and functional interactions between individual bacterial adhesins and host cell receptors. Protocols for different coupling chemistries, allowing directional immobilization of recombinant adhesins on polymer scaffolds, and for assessment of the coupling efficiency of the resulting "bacteriomimetic" materials are also discussed. We further describe how these materials can be used as a tool to inhibit pathogen mediated cytotoxicity and discuss scope, limitations and further applications of this approach in studying bacterial -host interactions.

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Effects of Cichorium intybus Methanolicextracts on Some Clinical Bacterial Isolates

Abdullah¹,

Al-Saedi²,

Salman³

2019

Ind. Jour. of Publ. Health Rese. & Develop.

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Strategies in anti-adhesion therapy: A review article

Al-Saedi

2022

AJPS

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Bacterial diseases are an important cause of mortality and morbidity worldwide. The Improper and uncontrolled use of antibiotics contribute to the bacterial resistance to antibiotics. It is well known that the antibiotics stop bacterial infections by killing or inhibiting their growth. Antibiotics are interfering with critical functions that are important for bacterial growth. To overcome this, bacteria developed different mechanisms to resist the antibiotics and survive. Targeting bacterial function without killing them is a promising way to inhibit bacterial infection. Bacterial adherence is a serious step towards infection. Anti –adhesion therapy aims to inhibit bacterial infection via interfering with bacterial attachment without killing them. This review will cover different strategies in anti-adhesion therapy.

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Fitua Al-Saedi

3-Sulfogalactosyl–dependent adhesion of Escherichia coli HS multivalent adhesion molecule is attenuated by sulfatase activity

Displacement of Pathogens by an Engineered Bacterium Is a Multifactorial Process That Depends on Attachment Competition and Interspecific Antagonism

Biomimetic Materials to Characterize Bacteria-host Interactions

Effects of Cichorium intybus Methanolicextracts on Some Clinical Bacterial Isolates

Strategies in anti-adhesion therapy: A review article

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