Small Alarmone Synthetase SasA Expression Leads to Concomitant Accumulation of pGpp, ppApp, and AppppA in Bacillus subtilis

Fung, Danny Ka Chun; Yang, Jin; Stevenson, David; Amador‐Noguez, Daniel; Wang, Jue D.

doi:10.3389/fmicb.2020.02083

Cited by 30 publications

(38 citation statements)

References 33 publications

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“…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]. Currently, the long RSH homologue from Methylobacterium extorquens and the small alarmone synthetase, SasA, from B. subtilis are the only other known enzymes that endogenously produce pyrophosphorylated derivatives of adenosine; however, these enzymes differ from Tas1 in that they also synthesize (p)ppGpp in response to stress [114,115]. (p)ppApp has also been reported in cell lysates of E. coli, but the identity of the enzyme responsible for its production is unknown [114].…”

Section: Role Of (P)ppgpp Beyond Nutrient Limitationmentioning

confidence: 99%

“…Currently, the long RSH homologue from Methylobacterium extorquens and the small alarmone synthetase, SasA, from B . subtilis are the only other known enzymes that endogenously produce pyrophosphorylated derivatives of adenosine; however, these enzymes differ from Tas1 in that they also synthesize (p)ppGpp in response to stress [ 114 , 115 ]. (p)ppApp has also been reported in cell lysates of E .…”

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: Introductionmentioning

confidence: 99%

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

et al. 2021

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“…35 To date, every organism that synthesizes pGpp directly or indirectly also synthesizes ppGpp and pppGpp. 31,40,47,[62][63] Utilization of GDP and GTP to exclusively synthesize pGpp by both a RSH and a SAS enzyme has not previously been reported. While it is still possible that RelC synthesizes the longer forms of magic spot despite its non-conserved guanosine binding motif, the dependence of CdRSH and CdRelQ on guanosine βphosphate bond hydrolysis indicates that pGpp is a very important, and possibly the only, clostridial alarmone.…”

Section: Discussionmentioning

confidence: 99%

Unique features of magic spot metabolism in Clostridioides difficile

Poudel

Pokhrel

Oludiran

et al. 2021

Preprint

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The magic spot alarmones (pp)pGpp, previously implicated in Clostridioides difficile antibiotic survival, are synthesized by CdRSH and CdRelQ. These enzymes are transcriptionally activated by diverse environmental stresses, but both exclusively synthesize pGpp rather than ppGpp as has previously been reported. While direct synthesis of pGpp from a GMP substrate and (p)ppGpp hydrolysis into pGpp by NUDIX hydrolases have previously been reported, there is no precedent for a bacterium synthesizing pGpp exclusively. Hydrolysis of the 5-prime phosphate or pyrophosphate from GDP or GTP substrates is necessary for activity by the clostridial enzymes, neither of which can utilize GMP as a substrate. Both enzymes are remarkably insensitive to the size of their metal ion cofactor, tolerating a broad array of metals that do not allow activity in (pp)pGpp synthetases from other organisms. It is clear that while C. difficile utilizes magic spot signaling, its mechanisms of alarmone synthesis are not directly homologous to those in more completely characterized organisms.

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“…This has potentially limited our understanding and appreciation of individual Ap 4 N in mammalian cells. Advances in detection via liquid chromatography/tandem mass spectroscopy have aided the quantitation of different Ap n N and have led to the identification of Ap 4 U in extracellular environments ( Schulz et al, 2014 ; Götz et al, 2019 ; Ji et al, 2019 ; Fung et al, 2020 ). Establishing new LC-MS/MS methods for the analysis of individual intracellular Ap n N and other Np n N will clarify the biological relevance of these dinucleotides in stress responses in mammalian systems.…”

Section: Discussion and Future Perspectivesmentioning

confidence: 99%

Re-evaluation of Diadenosine Tetraphosphate (Ap4A) From a Stress Metabolite to Bona Fide Secondary Messenger

Ferguson

McLennan

Urbaniak

et al. 2020

Front. Mol. Biosci.

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Cellular homeostasis requires adaption to environmental stress. In response to various environmental and genotoxic stresses, all cells produce dinucleoside polyphosphates (Np n Ns), the best studied of which is diadenosine tetraphosphate (Ap 4 A). Despite intensive investigation, the precise biological roles of these molecules have remained elusive. However, recent studies have elucidated distinct and specific signaling mechanisms for these nucleotides in prokaryotes and eukaryotes. This review summarizes these key discoveries and describes the mechanisms of Ap 4 A and Ap 4 N synthesis, the mediators of the cellular responses to increased intracellular levels of these molecules and the hydrolytic mechanisms required to maintain low levels in the absence of stress. The intracellular responses to dinucleotide accumulation are evaluated in the context of the “friend” and “foe” scenarios. The “friend (or alarmone) hypothesis” suggests that Ap n N act as bona fide secondary messengers mediating responses to stress. In contrast, the “foe” hypothesis proposes that Ap n N and other Np n N are produced by non-canonical enzymatic synthesis as a result of physiological and environmental stress in critically damaged cells but do not actively regulate mitigating signaling pathways. In addition, we will discuss potential target proteins, and critically assess new evidence supporting roles for Ap n N in the regulation of gene expression, immune responses, DNA replication and DNA repair. The recent advances in the field have generated great interest as they have for the first time revealed some of the molecular mechanisms that mediate cellular responses to Ap n N. Finally, areas for future research are discussed with possible but unproven roles for intracellular Ap n N to encourage further research into the signaling networks that are regulated by these nucleotides.

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Small Alarmone Synthetase SasA Expression Leads to Concomitant Accumulation of pGpp, ppApp, and AppppA in Bacillus subtilis

Cited by 30 publications

References 33 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

Unique features of magic spot metabolism in Clostridioides difficile

Re-evaluation of Diadenosine Tetraphosphate (Ap4A) From a Stress Metabolite to Bona Fide Secondary Messenger

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