High Risk for HIV following Syphilis Diagnosis among Men in Florida, 2000–2011

Background: Non-muscle myosin IIA is involved in force generation, movement, and membrane reshaping. Its activity is regulated by phosphorylation of the light chain. Results: NMHC-IIA head domain is tyrosine-phosphorylated by Src and modulates Listeria intracellular levels. Conclusion: Tyrosine phosphorylation of NMHC-IIA affects the outcome of infection. Significance: This novel post-translational modification of NMHC-IIA possibly affects its functions.

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Listeria monocytogenes Triggers the Cell Surface Expression of Gp96 Protein and Interacts with Its N Terminus to Support Cellular Infection

Martins

Custódio

Camejo³

et al. 2012

Journal of Biological Chemistry

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Background: Gp96 is the cellular receptor for Vip, a Listeria monocytogenes surface protein. The molecular details of Gp96-Vip interaction are unknown. Results: Cell surface expression of Gp96 increases upon Listeria infection. Gp96 N terminus is required for Vip interaction. Conclusion: Gp96 N-terminal domain is exposed to the extracellular milieu and is required for optimal Listeria entry. Significance: Our study provides topological insights into Gp96 plasma membrane association.

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Commensal Neisseria cinerea impairs Neisseria meningitidis microcolony development and reduces pathogen colonisation of epithelial cells

et al. 2020

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It is increasingly being recognised that the interplay between commensal and pathogenic bacteria can dictate the outcome of infection. Consequently, there is a need to understand how commensals interact with their human host and influence pathogen behaviour at epithelial surfaces. Neisseria meningitidis, a leading cause of sepsis and meningitis, exclusively colonises the human nasopharynx and shares this niche with several other Neisseria species, including the commensal Neisseria cinerea. Here, we demonstrate that during adhesion to human epithelial cells N. cinerea co-localises with molecules that are also recruited by the meningococcus, and show that, similar to N. meningitidis, N. cinerea forms dynamic microcolonies on the cell surface in a Type four pilus (Tfp) dependent manner. Finally, we demonstrate that N. cinerea colocalises with N. meningitidis on the epithelial cell surface, limits the size and motility of meningococcal microcolonies, and impairs the effective colonisation of epithelial cells by the pathogen. Our data establish that commensal Neisseria can mimic and affect the behaviour of a pathogen on epithelial cell surfaces.

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Characterization of secreted sphingosine‐1‐phosphate lyases required for virulence and intracellular survival of Burkholderia pseudomallei

Custódio

McLean

Scott

et al. 2016

Molecular Microbiology

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Sphingosine-1-phosphate (S1P), a bioactive sphingolipid metabolite, plays a critical role in the orchestration of immune responses. S1P levels within the mammalian host are tightly regulated, in part through the activity of S1P lyase (S1PL) which catalyses its irreversible degradation. Herein, we describe the identification and characterization of secreted S1PL orthologues encoded by the facultative intracellular bacteria Burkholderia pseudomallei and Burkholderia thailandensis. These bacterial orthologues exhibited S1PL enzymatic activity, functionally complemented an S1PL-deficient yeast strain and conferred resistance to the antimicrobial sphingolipid D-erythro-sphingosine. We report that secretion of these bacterial S1PLs is pH-dependent, and is observed during intracellular infection. S1PL-deficient mutants displayed impaired intracellular replication in murine macrophages (associated with an inability to evade the maturing phagosome) and were significantly attenuated in murine and larval infection models. Furthermore, treatment of Burkholderia-infected macrophages with either S1P or a selective agonist of S1P receptor 1 enhanced bacterial colocalisation with LAMP-1 and reduced their intracellular survival. In summary, our studies confirm bacterial-encoded S1PL as a critical virulence determinant of B. pseudomallei and B. thailandensis, further highlighting the pivotal role of S1P in host-pathogen interactions. In addition, our data suggest that S1P pathway modulators have potential for the treatment of intracellular infection.

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Type VI secretion system killing by commensal Neisseria is influenced by expression of type four pili

Custódio

Ford

Ellison

et al. 2021

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Type VI Secretion Systems (T6SSs) are widespread in bacteria and can dictate the development and organisation of polymicrobial ecosystems by mediating contact dependent killing. In Neisseria species, including Neisseria cinerea a commensal of the human respiratory tract, interbacterial contacts are mediated by Type four pili (Tfp) which promote formation of aggregates and govern the spatial dynamics of growing Neisseria microcolonies. Here, we show that N. cinerea expresses a plasmid-encoded T6SS that is active and can limit growth of related pathogens. We explored the impact of Tfp on N. cinerea T6SS-dependent killing within a colony and show that pilus expression by a prey strain enhances susceptibility to T6SS compared to a non-piliated prey, by preventing segregation from a T6SS-wielding attacker. Our findings have important implications for understanding how spatial constraints during contact-dependent antagonism can shape the evolution of microbial communities.

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Type VI secretion system killing by commensal Neisseria is influenced by the spatial dynamics of bacteria

Custódio

et al. 2020

Preprint

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Type VI Secretion Systems (T6SS) are widespread in bacteria and can dictate the development and organisation of polymicrobial ecosystems by mediating contact dependent killing. In Neisseria species, including Neisseria cinerea a commensal of the human respiratory tract, interbacterial contacts are mediated by Type four pili (Tfp) which promote formation of aggregates and govern the spatial dynamics of growing Neisseria microcolonies. Here we show that N. cinerea expresses a plasmid-encoded T6SS that is active and can limit growth of related pathogens. We explored the impact of Tfp expression on N. cinerea T6SS-dependent killing and show that expression of Tfp by prey strains enhances their susceptibility to T6SS, by keeping them in close proximity of T6SS-wielding attacker strains. Our findings have important implications for understanding how spatial constraints during contact-dependent antagonism can shape the evolution of microbial communities.

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Characterization of homologous sphingosine-1-phosphate lyase isoforms in the bacterial pathogen Burkholderia pseudomallei

McLean

Marles‐Wright

Custódio

et al. 2017

Journal of Lipid Research

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Sphingolipids (SLs) are ubiquitous elements in eukaryotic membranes and are also found in some bacterial and viral species. As well as playing an integral structural role, SLs also act as potent signaling molecules involved in numerous cellular pathways and have been linked to many human diseases. A central SL signaling molecule is sphingosine-1-phosphate (S1P), whose breakdown is catalyzed by S1P lyase (S1PL), a pyridoxal 5′-phosphate (PLP)-dependent enzyme that catalyzes the cleavage of S1P to (2E)-hexadecenal (2E-HEX) and phosphoethanolamine. Here, we show that the pathogenic bacterium, Burkholderia pseudomallei K96243, encodes two homologous proteins (S1PL2021 and S1PL2025) that display moderate sequence identity to known eukaryotic and prokaryotic S1PLs. Using an established MS-based methodology, we show that recombinant S1PL2021 is catalytically active. We also used recombinant human fatty aldehyde dehydrogenase to develop a spectrophotometric enzyme-coupled assay to detect 2E-HEX formation and measure the kinetic constants of the two B. pseudomallei S1PL isoforms. Furthermore, we determined the X-ray crystal structure of the PLP-bound form of S1PL2021 at 2.1 Å resolution revealing that the enzyme displays a conserved structural fold and active site architecture comparable with known S1PLs. The combined data suggest that B. pseudomallei has the potential to degrade host SLs in a S1PL-dependent manner.

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Action of peptide-B from bovine fibrinogen on ATPase activity and superprecipitation of myosin B

Aj¹,

Custódio²

1975

American Journal of Physiology-Legacy Content

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Bovine peptide-B from fibrinogen was capable of accelerating the structural and enzymatic effects associated with superprecipitation of myosin B. The rate of superprecipitation coupled with the hydrolysis of ATP are increased during the structural transformation. In the concentration range from 10-8 to 10-4 M peptide-B, the rate of superprecipitation is increased 12-fold while the hydrolysis of ATP doubles and the time to reach the final extent of superprecipitation is decreased 68%. Under these same conditions, the hydrolysis of ATP by myosin A was unaffected. The concentrations of magnesium and calcium were between 10 and 20 muM, and no additional divalent metal ions were added to the system. Superprecipitation was treated as a model for muscle contraction to explain the in vivo studies of bovine peptide-B in which the peptide behaves as a vasopressor substance producing vascular vasoconstriction. A possible mechanism for the participation of bovine peptide-B in the model for muscle contraction, based on the polarizing interaction of the highly charged density of negativity of the peptide with the actomyosin complex, is presented. Furthermore, bovine peptide-B is speculated as participating in vasoconstriction via attachment to some smooth muscle receptor.

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Rafael Custódio

Src-dependent Tyrosine Phosphorylation of Non-muscle Myosin Heavy Chain-IIA Restricts Listeria monocytogenes Cellular Infection

Listeria monocytogenes Triggers the Cell Surface Expression of Gp96 Protein and Interacts with Its N Terminus to Support Cellular Infection

Commensal Neisseria cinerea impairs Neisseria meningitidis microcolony development and reduces pathogen colonisation of epithelial cells

Characterization of secreted sphingosine‐1‐phosphate lyases required for virulence and intracellular survival of Burkholderia pseudomallei

Type VI secretion system killing by commensal Neisseria is influenced by expression of type four pili

Type VI secretion system killing by commensal Neisseria is influenced by the spatial dynamics of bacteria

Characterization of homologous sphingosine-1-phosphate lyase isoforms in the bacterial pathogen Burkholderia pseudomallei

Action of peptide-B from bovine fibrinogen on ATPase activity and superprecipitation of myosin B

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