Nickel Homeostasis: Mechanism and function of<scp>NikR</scp>

Jones, Michael D.; Sydor, Andrew M.; Zamble, Deborah B.

doi:10.1002/9781119951438.eibc2133

Cited by 2 publications

(10 citation statements)

References 87 publications

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“…The cis state has only been observed in the crystal structure of Ni(II)-EcNikR in complex with DNA ( 38 ). Although Trp54 is not conserved in EcNikR, published sequence alignments of NikR homologs reveal that it corresponds to Thr45 ( 17 , 32 , 40 ), all four of which are resolved in the structure of the Ni(II)–EcNikR–DNA complex ( 38 ). Two of the Thr45 residues appear to be solvent-exposed, while the other two are more buried, similar to the environments observed for the tryptophan residues in the trans state of HpNikR and PhNikR.…”

Section: Resultsmentioning

confidence: 99%

“…Nickel is an essential nutrient for the survival of H. pylori in the human stomach ( 6 ). HpNikR maintains the balance between nickel starvation and toxicity by activating or repressing the transcription of genes encoding proteins involved in nickel storage, utilization, and transport ( 17 , 19 , 23 ). However, HpNikR can also regulate a variety of other genes, such as those involved in acid adaptation, and is considered a “master regulator” in H. pylori ( 17 , 20 , 21 , 22 , 23 , 31 ).…”

Section: Discussionmentioning

confidence: 99%

“…The limited availability and inherent toxicity of nickel mean that maintaining desirable levels of this metal necessitates an extensive network of nickel acquisition, storage, delivery, and efflux pathways ( 9 , 12 , 13 , 14 , 15 ). In many organisms that utilize nickel, these systems are coordinated by the nickel-responsive transcription factor NikR, which is referred to as a metalloregulator or metal-sensor protein ( 16 , 17 , 18 , 19 ). In H. pylori , NikR (HpNikR) senses the bioavailability of nickel and subsequently activates or represses transcription of a variety of genes encoding nickel homeostasis proteins and acid adaptation factors, including the urease enzyme precursor proteins ( 17 , 18 , 20 , 21 , 22 , 23 ).…”

mentioning

confidence: 99%

“…In many organisms that utilize nickel, these systems are coordinated by the nickel-responsive transcription factor NikR, which is referred to as a metalloregulator or metal-sensor protein ( 16 , 17 , 18 , 19 ). In H. pylori , NikR (HpNikR) senses the bioavailability of nickel and subsequently activates or represses transcription of a variety of genes encoding nickel homeostasis proteins and acid adaptation factors, including the urease enzyme precursor proteins ( 17 , 18 , 20 , 21 , 22 , 23 ). HpNikR binds an oligonucleotide recognition sequence in the promoter of target genes that consists of two half sites that are a pseudo-symmetric palindrome separated by a spacer ( 24 , 25 , 26 , 27 ).…”

mentioning

confidence: 99%

“…However, crystal structures of NikR without DNA reveal the open and trans conformers, regardless of nickel binding, suggesting that nickel alone does not induce a conformational shift or large changes in tertiary structure ( 32 , 37 , 39 , 40 ). In EcNikR, nickel binding has been shown to induce short-range effects in the MBD to allosterically activate DNA binding, but there is no evidence to support the same type of mechanism in HpNikR ( 16 , 17 ). Instead, allostery in HpNikR is believed to be driven by changes in dynamics, specifically the mobility of the DBDs ( 16 , 45 , 46 , 47 ).…”

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confidence: 99%

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Allosteric regulation of the nickel-responsive NikR transcription factor from Helicobacter pylori

Baksh

Pichugin

Prosser

et al. 2021

Journal of Biological Chemistry

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Nickel is essential for the survival of the pathogenic bacteria Helicobacter pylori in the fluctuating pH of the human stomach. Due to its inherent toxicity and limited availability, nickel homeostasis is maintained through a network of pathways that are coordinated by the nickel-responsive transcription factor NikR. Nickel binding to H. pylori NikR (HpNikR) induces an allosteric response favoring a conformation that can bind specific DNA motifs, thereby serving to either activate or repress transcription of specific genes involved in nickel homeostasis and acid adaptation. Here, we examine how nickel induces this response using 19F-NMR, which reveals conformational and dynamic changes associated with nickel-activated DNA complex formation. HpNikR adopts an equilibrium between an open state and DNA binding competent states regardless of nickel binding, but a higher level of dynamics is observed in the absence of metal. Nickel binding shifts the equilibrium toward the binding-competent states and decreases the mobility of the DNA-binding domains. The nickel-bound protein is then able to adopt a single conformation upon binding a target DNA promoter. Zinc, which does not promote high affinity DNA binding, is unable to induce the same allosteric response as nickel. We propose that the allosteric mechanism of nickel-activated DNA binding by HpNikR is driven by conformational selection.

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Section: Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

mentioning

confidence: 99%

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Allosteric regulation of the nickel-responsive NikR transcription factor from Helicobacter pylori

Baksh

Pichugin

Prosser

et al. 2021

Journal of Biological Chemistry

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Insights into the Allosteric Response to Acidity by the Helicobacter pylori NikR Transcription Factor

Augustine,

Baksh,

Prosser

et al. 2023

Biochemistry

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Helicobacter pylori NikR (HpNikR) is a nickel-responsive transcription factor that regulates genes involved in nickel homeostasis, which is essential for the survival of this pathogen within the acidic human stomach. HpNikR also responds to drops in pH and regulates genes controlling acid acclimation of the bacteria, independently of nickel. We previously showed that nickel binding biases the conformational ensemble of HpNikR to the more DNA-binding competent states via an allosteric network of residues encompassing the nickel binding sites and the interface between the metal- and DNA-binding domains. Here, we examine how acidity promotes this response using 19F-NMR, mutagenesis, and DNA-binding studies. 19F-NMR revealed that a drop in pH from 7.6 to 6.0 does little to shift the conformational ensemble of HpNikR to the DNA binding-compatible cis conformer. Nevertheless, DNA-binding affinities of apo-HpNikR at pH 6.0 and Ni(II)-HpNikR at pH 7.6 are comparable for the ureA promoter. Histidine residues of the nickel binding sites were shown to be important for pH-dependent DNA binding and thus likely impart positive charge to the protein, initiating long-range electrostatic interactions with DNA that induce DNA complexation. The results point to a different DNA-binding mechanism in response to acidity compared to the conformational selection mechanism in response to nickel and overall provide new insights into the influence of pH on HpNikR activity, which contributes to H. pylori viability.

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Nickel Homeostasis: Mechanism and function ofNikR

Cited by 2 publications

References 87 publications

Allosteric regulation of the nickel-responsive NikR transcription factor from Helicobacter pylori

Allosteric regulation of the nickel-responsive NikR transcription factor from Helicobacter pylori

Insights into the Allosteric Response to Acidity by the Helicobacter pylori NikR Transcription Factor

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