Structural and functional analysis of pyocin S8 from<i>Pseudomonas aeruginosa</i>: requirement of a glutamate in the H-N-H motif for the DNase activity

Turano, Helena; Fomes, Fernando; Domingos, Renato Mateus; Degenhardt, Maximilia F. S.; Oliveira, Cristiano L. P.; Garratt, Richard Charles; Lincopán, Nilton; Netto, Luís Eduardo Soares

doi:10.1101/2020.04.29.068437

Cited by 2 publications

References 53 publications

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Molecular Structure and Functional Analysis of Pyocin S8 from Pseudomonas aeruginosa Reveals the Essential Requirement of a Glutamate Residue in the H-N-H Motif for DNase Activity

et al. 2020

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Multi-drug resistance (MDR) is a serious threat to public health, making the development of new antimicrobials an urgent necessity. Pyocins are protein antibiotics produced by Pseudomonas aeruginosa strains to kill closely related cells during intraspecific competition. Here, we report an in depth biochemical, microbicidal and structural characterization of a new S-type pyocin, named S8. Initially, we described the domain organization and secondary structure of S8. Subsequently, we observed that a recombinant S8 composed of the killing subunit in complex with the immunity (ImS8) protein killed the strain PAO1. Furthermore, mutation of a highly conserved glutamic acid to alanine (Glu100Ala) completely inhibited this antimicrobial activity. Probably the integrity of the H-N-H motif is essential in the killing activity of S8, as Glu100 is a highly conserved residue of this motif. Next, we observed that S8 is a metal-dependent endonuclease, as EDTA treatment abolished its ability to cleave supercoiled pUC18 plasmid. Supplementation of apo S8 with Ni2+ strongly induced this DNase activity, whereas Mn2+ and Mg2+ exhibited moderate effects and Zn2+ was inhibitory. Additionally, S8 bound Zn2+ with a higher affinity than Ni2+ and the Glu100Ala mutation decreased the affinity of S8 for these metals as shown by isothermal titration calorimetry (ITC). Finally, we describe the crystal structure of the Glu100Ala S8DNase-ImS8 complex at 1.38 Å, which gave us new insights into the endonuclease activity of S8. Our results reinforce the possibility of using pyocin S8 as an alternative therapy for infections caused by MDR strains, while leaving commensal human microbiota intact. Importance Pyocins are proteins produced by Pseudomonas aeruginosa strains that participate in intraspecific competition and host-pathogen interactions. They were first described in the 50′s, and since then have gained attention as possible new antibiotics. However, there is still only scarce information about the molecular mechanisms by which these molecules induce cell death. Here, we show that the metal-dependent endonuclease activity of pyocin S8 is involved with its antimicrobial action against PAO1 strain. We also describe that this killing activity is dependent on a conserved Glu residue within the H-N-H motif. The potency and selectivity of pyocin-S8 towards a narrow-spectrum of P. aeruginosa strains make this protein an attractive antimicrobial alternative to combat MDR strains, while leaving commensal human microbiota intact.

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Molecular Structure and Functional Analysis of Pyocin S8 from Pseudomonas aeruginosa Reveals the Essential Requirement of a Glutamate Residue in the H-N-H Motif for DNase Activity

et al. 2020

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The influence of non-inhibitory concentrations of purified pyocin S2 on Pseudomonas aeruginosa isolates

Mehina¹

2021

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Structural and functional analysis of pyocin S8 fromPseudomonas aeruginosa: requirement of a glutamate in the H-N-H motif for the DNase activity

Cited by 2 publications

References 53 publications

Molecular Structure and Functional Analysis of Pyocin S8 from Pseudomonas aeruginosa Reveals the Essential Requirement of a Glutamate Residue in the H-N-H Motif for DNase Activity

Molecular Structure and Functional Analysis of Pyocin S8 from Pseudomonas aeruginosa Reveals the Essential Requirement of a Glutamate Residue in the H-N-H Motif for DNase Activity

The influence of non-inhibitory concentrations of purified pyocin S2 on Pseudomonas aeruginosa isolates

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