Dual role of a (p)ppGpp‐ and (p)ppApp‐degrading enzyme in biofilm formation and interbacterial antagonism

Steinchen, Wieland; Ahmad, Shehryar; Valentini, Martina; Eilers, Kira; Majkini, Mohamad; Altegoer, Florian; Lechner, Marcus; Filloux, Alain; Whitney, John C.; Bange, Gert

doi:10.1111/mmi.14684

Cited by 19 publications

(48 citation statements)

References 81 publications

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“…The toxicity of Tas1 can be alleviated by its cognate immunity protein, Tis1, which inhibits the toxin through direct binding. (p)ppApp-mediated toxicity can also be alleviated by the P. aeruginosa hydrolase, PaSAH (formerly PA0431) [113]. PaSAH may contribute to bacterial defense against Tas1-like effectors as the deletion of PaSAH from a Tas1-sensitive P. aeruginosa strain renders it hypersusceptible to T6SS-delivered Tas1 [113].…”

Section: Role Of (P)ppgpp Beyond Nutrient Limitationmentioning

confidence: 99%

“…(p)ppApp-mediated toxicity can also be alleviated by the P. aeruginosa hydrolase, PaSAH (formerly PA0431) [113]. PaSAH may contribute to bacterial defense against Tas1-like effectors as the deletion of PaSAH from a Tas1-sensitive P. aeruginosa strain renders it hypersusceptible to T6SS-delivered Tas1 [113]. In addition, and in contrast to (p)ppGpp, (p)ppApp is inefficiently degraded by P. aeruginosa SpoT, which results in (p)ppApp accumulation and likely contributes to its function as an energy depleting toxin [12].…”

Section: Role Of (P)ppgpp Beyond Nutrient Limitationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

“…Pa SAH may contribute to bacterial defense against Tas1-like effectors as the deletion of Pa SAH from a Tas1-sensitive P . aeruginosa strain renders it hypersusceptible to T6SS-delivered Tas1 [ 113 ]. In addition, and in contrast to (p)ppGpp, (p)ppApp is inefficiently degraded by P .…”

Section: Introductionmentioning

confidence: 99%

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Emerging and divergent roles of pyrophosphorylated nucleotides in bacterial physiology and pathogenesis

et al. 2021

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Bacteria inhabit diverse environmental niches and consequently must modulate their metabolism to adapt to stress. The nucleotide second messengers guanosine tetraphosphate (ppGpp) and guanosine pentaphosphate (pppGpp) (collectively referred to as (p)ppGpp) are essential for survival during nutrient starvation. (p)ppGpp is synthesized by the RelA-SpoT homologue (RSH) protein family and coordinates the control of cellular metabolism through its combined effect on over 50 proteins. While the role of (p)ppGpp has largely been associated with nutrient limitation, recent studies have shown that (p)ppGpp and related nucleotides have a previously underappreciated effect on different aspects of bacterial physiology, such as maintaining cellular homeostasis and regulating bacterial interactions with a host, other bacteria, or phages. (p)ppGpp produced by pathogenic bacteria facilitates the evasion of host defenses such as reactive nitrogen intermediates, acidic pH, and the complement system. Additionally, (p)ppGpp and pyrophosphorylated derivatives of canonical adenosine nucleotides called (p)ppApp are emerging as effectors of bacterial toxin proteins. Here, we review the RSH protein family with a focus on its unconventional roles during host infection and bacterial competition.

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Section: Role Of (P)ppgpp Beyond Nutrient Limitationmentioning

confidence: 99%

Section: Role Of (P)ppgpp Beyond Nutrient Limitationmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Emerging and divergent roles of pyrophosphorylated nucleotides in bacterial physiology and pathogenesis

et al. 2021

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“…17,23 Second, representatives of several SAH subfamiliesincluding MESH1were shown to efficiently hydrolyze (p)ppApp. 17,20,24 Structural investigations of alarmone-bound RSH enzymes are complicated by, first, the rapid hydrolysis of the (p)ppGpp to GDP/GTP by HD-competent RSHs, second, the nonenzymatic degradation of the alarmone resulting in partially hydrolyzed ppG2′3′p. 14 While it is possible to use enzymes from thermophilic bacteriasuch as Thermus thermophilus Rel (Rel Tt ), an extremely inefficient (p)ppGpp-hydrolase at RT 16,25 studies of enzymes from mesophilic species remain challenging.…”

Section: ■ Introductionmentioning

confidence: 99%

Nonhydrolysable Analogues of (p)ppGpp and (p)ppApp Alarmone Nucleotides as Novel Molecular Tools

et al. 2021

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While alarmone nucleotides guanosine-3′,5′-bisdiphosphate (ppGpp) and guanosine-5′-triphosphate-3′-diphosphate (pppGpp) are archetypical bacterial second messengers, their adenosine analogues ppApp (adenosine-3′,5′-bisdiphosphate) and pppApp (adenosine-5′-triphosphate-3′-diphosphate) are toxic effectors that abrogate bacterial growth. The alarmones are both synthesized and degraded by the members of the RelA-SpoT Homologue (RSH) enzyme family. Because of the chemical and enzymatic liability of (p)ppGpp and (p)ppApp, these alarmones are prone to degradation during structural biology experiments. To overcome this limitation, we have established an efficient and straightforward procedure for synthesizing nonhydrolysable (p)ppNu N pp analogues starting from 3′-azido-3′-deoxyribonucleotides as key intermediates. To demonstrate the utility of (p)ppG N pp as a molecular tool, we show that (i) as an HD substrate mimic, ppG N pp competes with ppGpp to inhibit the enzymatic activity of human MESH1 Small Alarmone Hyrolase, SAH; and (ii) mimicking the allosteric effects of (p)ppGpp, (p)ppG N pp acts as a positive regulator of the synthetase activity of long ribosome-associated RSHs Rel and RelA. Finally, by solving the structure of the N-terminal domain region (NTD) of T. thermophilus Rel complexed with pppG N pp, we show that as an HD substrate mimic, the analogue serves as a bona f ide orthosteric regulator that promotes the same intra-NTD structural rearrangements as the native substrate.

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Effect of household pipe materials on formation and chlorine resistance of the early-stage biofilm: various interspecific interactions exhibited by the same microbial biofilm in different pipe materials

Shan,

Zheng,

et al. 2024

Arch Microbiol

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Dual role of a (p)ppGpp‐ and (p)ppApp‐degrading enzyme in biofilm formation and interbacterial antagonism

Cited by 19 publications

References 81 publications

Emerging and divergent roles of pyrophosphorylated nucleotides in bacterial physiology and pathogenesis

Emerging and divergent roles of pyrophosphorylated nucleotides in bacterial physiology and pathogenesis

Nonhydrolysable Analogues of (p)ppGpp and (p)ppApp Alarmone Nucleotides as Novel Molecular Tools

Effect of household pipe materials on formation and chlorine resistance of the early-stage biofilm: various interspecific interactions exhibited by the same microbial biofilm in different pipe materials

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