Exploring the Potent Inhibition of CTP Synthase by Gemcitabine‐5′‐Triphosphate

McCluskey, Gregory D.; Mohamady, Samy; Taylor, Scott D.; Bearne, Stephen L.

doi:10.1002/cbic.201600405

Cited by 16 publications

(21 citation statements)

References 83 publications

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“…5c). CTPS kinetic parameters reported for various species vary significantly, but hill coefficients close to 4 have been reported for both activation and inhibition 6,8,[26][27][28] . Remarkably, CTPS2 filaments exhibited an even higher n Hill of 8.3, providing a switchlike response to changes in CTP concentrations (Fig.…”

Section: Regulation Of Ctps2 Filaments Is Highly Cooperativementioning

confidence: 99%

Coupled structural transitions enable highly cooperative regulation of human CTPS2 filaments

Lynch

Kollman

2019

Nat Struct Mol Biol

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Many enzymes assemble into defined oligomers, providing a mechanism for cooperatively regulating activity. Recent studies have described a mode of regulation in which enzyme activity is modulated by polymerization into large-scale filaments. Here we describe an ultrasensitive form of polymerization-based regulation employed by human CTP synthase 2 (CTPS2). Cryo-EM structures reveal that CTPS2 filaments dynamically switch between active and inactive forms in response to changes in substrate and product levels. Linking the conformational state of many CTPS2 subunits in a filament results in highly cooperative regulation, greatly exceeding the limits of cooperativity for the CTPS2 tetramer alone. The structures reveal a link between conformation and control of ammonia channeling between the enzyme's active sites, and explain differences in regulation of human CTPS isoforms. This filament-based mechanism of enhanced cooperativity demonstrates how the widespread phenomenon of enzyme polymerization can be adapted to achieve different regulatory outcomes.CTP synthase (CTPS) is the key regulatory enzyme in pyrimidine biosynthesis, with critical roles in regulation of nucleotide balance 1 , maintenance of genome integrity 2,3 , and synthesis of membrane phospholipids 4 . CTPS catalyzes the conversion of UTP to CTP in an ATPdependent process, the rate-limiting step in CTP synthesis. CTPS is regulated through feedback inhibition by CTP binding, and is allosterically regulated by GTP, making it sensitive to levels of the four essential ribonucleotides, reflecting its role as a critical regulatory node in nucleotide metabolism [5][6][7][8] . CTPS is a homotetramer, with each monomer composed of a glutaminase and an amidoligase domain connected by a helical linker 9 . Ammonia is generated from glutamine then transfered to the amidoligase domain, where it is ligated to UTP to form CTP; while both of these catalytic mechanisms are well understood, the mechanism of ammonia transfer between the two separated active sites has not yet been described. Previously, we showed that CTPS undergoes a conserved conformation cycle controlled by substrate and product binding, involving two major Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use:

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Section: Regulation Of Ctps2 Filaments Is Highly Cooperativementioning

confidence: 99%

Coupled structural transitions enable highly cooperative regulation of human CTPS2 filaments

Lynch

Kollman

2019

Nat Struct Mol Biol

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“…Cell numbers counted after replace with DMEM increased more quickly in previous culture condition of EBSS + His than that in EBSS alone (EBSS + His: EBSS > 2-fold) (Figure S2F). Treatment with the CTPS inhibitor gemcitabine (McCluskey et al, 2016) substantially reduced cell growth following the addition of DMEM to cells grown in glutamine/serum deprivation and EBSS + His (Figures 2F and S2G). Thus, filament formation positively correlates with cellular proliferation, suggesting that histidine-induced filament formation allows efficient proliferation following nutrient replenishment.…”

Section: The Formation Of Hctps Filaments Reduces Enzymatic Activity and Preserves Protein Stability During Nutritional Deprivationmentioning

confidence: 99%

Histidine-Dependent Protein Methylation Is Required for Compartmentalization of CTP Synthase

et al. 2018

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CTP synthase (CTPS) forms compartmentalized filaments in response to substrate availability and environmental nutrient status. However, the physiological role of filaments and mechanisms for filament assembly are not well understood. Here, we provide evidence that CTPS forms filaments in response to histidine influx during glutamine starvation. Tetramer conformation-based filament formation restricts CTPS enzymatic activity during nutrient deprivation. CTPS protein levels remain stable in the presence of histidine during nutrient deprivation, followed by rapid cell growth after stress relief. We demonstrate that filament formation is controlled by methylation and that histidine promotes re-methylation of homocysteine by donating one-carbon intermediates to the cytosolic folate cycle. Furthermore, we find that starvation stress and glutamine deficiency activate the GCN2/ATF4/MTHFD2 axis, which coordinates CTPS filament formation. CTPS filament formation induced by histidine-mediated methylation may be a strategy used by cancer cells to maintain homeostasis and ensure a growth advantage in adverse environments.

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“…All 4 of these mutations seemed likely to affect general transcription, so we focused on the pyrG mutations. pyrG encodes CTP synthetase (CTPS), an essential enzyme required to make CTP, using UTP, glutamine and ATP as substrates (Mccluskey et al, 2016).…”

Section: Iqc-resistance Mutations Mainly Map To the Pyrg (Ctp Synthetmentioning

confidence: 99%

“…CTPS has indeed been explored as a potential therapeutic target for a number of infections, especially Mycobacterium tuberculosis (Mori et al, 2015;Esposito et al, 2017;Chiarelli et al, 2018), but also for protozoan infections including trypanosomiasis (Fijolek et al, 2007). Nucleoside analogs acting on CTPS have also been used in human cancer therapies e.g., gemcitabine (Mccluskey et al, 2016); but these tend to have complex off target effects as they can interfere with multiple nucleotide binding proteins and even act as substrates.…”

Section: Ctps As a Therapeutic Targetmentioning

confidence: 99%

A Small Molecule Inhibitor of CTP Synthetase Identified by Differential Activity on a Bacillus subtilis Mutant Deficient in Class A Penicillin-Binding Proteins

Emami

Errington

2020

Front. Microbiol.

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In the course of screening for compounds with differential growth inhibition activity on a mutant of Bacillus subtilis lacking all four class A penicillin-binding proteins (4), we came across an isoquinoline derivative, IQ-1 carboxylic acid (IQC) with relatively high activity on the mutant compared to the wild type strain. Treated cells were slightly elongated and had altered chromosome morphology. Mutants of 4 resistant to IQC were isolated and subjected to whole genome sequencing. Most of the mutants were affected in the gene, pyrG, encoding CTP synthetase (CTPS). Purified wild type CTPS was inhibited in vitro by IQC. Two of the three mutant proteins purified showed decreased sensitivity to IQC in vitro. Finally, inhibition by IQC was rescued by addition of cytidine but not uridine to the growth medium, consistent with the notion that IQC acts by reducing the synthesis of CTP or a related compound. IQC provides a promising new starting point for antibiotic inhibitors of CTPS.

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Exploring the Potent Inhibition of CTP Synthase by Gemcitabine‐5′‐Triphosphate

Cited by 16 publications

References 83 publications

Coupled structural transitions enable highly cooperative regulation of human CTPS2 filaments

Coupled structural transitions enable highly cooperative regulation of human CTPS2 filaments

Histidine-Dependent Protein Methylation Is Required for Compartmentalization of CTP Synthase

A Small Molecule Inhibitor of CTP Synthetase Identified by Differential Activity on a Bacillus subtilis Mutant Deficient in Class A Penicillin-Binding Proteins

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