Structural basis for Tpt1-catalyzed 2′-PO<sub>4</sub>transfer from RNA and NADP(H) to NAD<sup>+</sup>

Jacewicz, Agata; Dantuluri, Swathi; Shuman, Stewart

doi:10.1073/pnas.2312999120

Proc. Natl. Acad. Sci. U.S.A.

2023

DOI: 10.1073/pnas.2312999120

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Structural basis for Tpt1-catalyzed 2′-PO₄transfer from RNA and NADP(H) to NAD⁺

Agata Jacewicz,

Swathi Dantuluri,

Stewart Shuman

Abstract: Tpt1 is an essential agent of fungal and plant tRNA splicing that removes an internal RNA 2′-phosphate generated by tRNA ligase. Tpt1 also removes the 2′-phosphouridine mark installed by Ark1 kinase in the V-loop of archaeal tRNAs. Tpt1 performs a two-step reaction in which the 2′-PO 4 attacks NAD + to form an RNA-2′-phospho-(ADP-ribose) intermediate, and transesterification of the ADP-ribose O2″ to the RNA 2′-phosphodiester yields 2′-OH RNA and ADP-ribose-1″,2″-… Show more

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Cited by 3 publications

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Chemical synthesis of 2″OMeNAD+ and its deployment as an RNA 2′-phosphotransferase (Tpt1) ‘poison’ that traps the enzyme on its abortive RNA-2′-PO4-(ADP-2″OMe-ribose) reaction intermediate

Arnold,

Ghosh,

Kasprzyk

et al. 2024

Nucleic Acids Research

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RNA 2′-phosphotransferase Tpt1 catalyzes the removal of an internal RNA 2′-PO4 via a two-step mechanism in which: (i) the 2′-PO4 attacks NAD+ C1″ to form an RNA-2′-phospho-(ADP-ribose) intermediate and nicotinamide; and (ii) transesterification of the ADP-ribose O2″ to the RNA 2′-phosphodiester yields 2′-OH RNA and ADP-ribose-1″,2″-cyclic phosphate. Although Tpt1 enzymes are prevalent in bacteria, archaea, and eukarya, Tpt1 is uniquely essential in fungi and plants, where it erases the 2′-PO4 mark installed by tRNA ligases during tRNA splicing. To identify a Tpt1 ‘poison’ that arrests the reaction after step 1, we developed a chemical synthesis of 2″OMeNAD+, an analog that cannot, in principle, support step 2 transesterification. We report that 2″OMeNAD+ is an effective step 1 substrate for Runella slithyformis Tpt1 (RslTpt1) in a reaction that generates the normally undetectable RNA-2′-phospho-(ADP-ribose) intermediate in amounts stoichiometric to Tpt1. EMSA assays demonstrate that RslTpt1 remains trapped in a stable complex with the abortive RNA-2′-phospho-(ADP-2″OMe-ribose) intermediate. Although 2″OMeNAD+ establishes the feasibility of poisoning and trapping a Tpt1 enzyme, its application is limited insofar as Tpt1 enzymes from fungal pathogens are unable to utilize this analog for step 1 catalysis. Analogs with smaller 2″-substitutions may prove advantageous in targeting the fungal enzymes.

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Chemical synthesis of 2″OMeNAD+ and its deployment as an RNA 2′-phosphotransferase (Tpt1) ‘poison’ that traps the enzyme on its abortive RNA-2′-PO4-(ADP-2″OMe-ribose) reaction intermediate

Arnold,

Ghosh,

Kasprzyk

et al. 2024

Nucleic Acids Research

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Characterization of tRNA splicing enzymes RNA ligase and tRNA 2′-phosphotransferase from the pathogenic fungi Mucorales

Ghosh,

Dantuluri,

Jacewicz

et al. 2024

RNA

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Fungal Trl1 is an essential trifunctional tRNA splicing enzyme that heals and seals tRNA exons with 2',3'-cyclic-PO4and 5'-OH ends. Trl1 is composed of C-terminal cyclic phosphodiesterase and central polynucleotide kinase end-healing domains that generate the 3'-OH,2'-PO4and 5'-PO4termini required for sealing by an N-terminal ATP-dependent ligase domain. Trl1 enzymes are present in many human fungal pathogens and are promising targets for anti-fungal drug discovery because their domain structures and biochemical mechanisms are unique compared to the mammalian RtcB-type tRNA splicing enzyme. Here we report thatMucoralesspecies (deemed high priority human pathogens by WHO) elaborate a noncanonical tRNA splicing apparatus in which a monofunctional RNA ligase enzyme is encoded separately from any end-healing enzymes. We show that Mucor circinelloides RNA ligase (MciRNL) is active in tRNA splicing in vivo in budding yeast in lieu of the Trl1 ligase domain. Biochemical and kinetic characterization of recombinant MciRNL underscores its requirement for a 2'-PO4terminus in the end-joining reaction, whereby the 2'-PO4enhances the rates of RNA 5’-adenylylation (step 2) and phosphodiester synthesis (step 3) by ~125-fold and ~6200-fold, respectively. In the canonical fungal tRNA splicing pathway, the splice junction 2'-PO4installed by RNA ligase is removed by a dedicated NAD+-dependent RNA 2’-phosphotransferase Tpt1. Here we identify and affirm by genetic complementation in yeast the biological activity of Tpt1 orthologs from three Mucorales species. RecombinantMucor circinelloidesTpt1 has vigorous NAD+-dependent RNA 2’-phosphotransferase activity in vitro.

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Identification, characterization, and structure of a tRNA splicing enzyme RNA 5′-OH kinase from the pathogenic fungi Mucorales

Ghosh,

Wimberly-Gard,

Jacewicz

et al. 2024

RNA

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Fungal Trl1 is an essential tRNA splicing enzyme composed of C-terminal cyclic phosphodiesterase and central polynucleotide kinase end-healing domains that convert the 2',3'-cyclic-PO4 and 5'-OH ends of tRNA exons into the 3'-OH,2'-PO4 and 5'-PO4 termini required for sealing by an N-terminal ATP-dependent ligase domain. Trifunctional Trl1 enzymes are present in most human fungal pathogens and are untapped targets for anti-fungal drug discovery. Mucorales species, deemed high priority human pathogens by WHO, elaborate a noncanonical tRNA splicing apparatus in which a stand-alone monofunctional RNA ligase enzyme joins 3'-OH,2'-PO4 and 5'-PO4 termini. Here we identify a stand-alone Mucor circinelloides polynucleotide kinase (MciKIN) and affirm its biological activity in tRNA splicing by genetic complementation in yeast. Recombinant MciKIN catalyzes magnesium-dependent phosphorylation of 5'-OH RNA and DNA ends in vitro. MciKIN displays a strong preference for GTP as the phosphate donor in the kinase reaction, a trait shared with the stand-alone RNA kinase homologs from Mucorales species Rhizopus azygosporus (RazKIN) and Lichtheimia corymbifera (LcoKIN) and with the kinase domains of fungal Trl1 enzymes. We report a 1.65 Å crystal structure of RazKIN in complex with GDP•Mg2+ that illuminates the basis for guanosine nucleotide specificity.

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Structural basis for Tpt1-catalyzed 2′-PO₄transfer from RNA and NADP(H) to NAD⁺

Cited by 3 publications

References 39 publications

Chemical synthesis of 2″OMeNAD+ and its deployment as an RNA 2′-phosphotransferase (Tpt1) ‘poison’ that traps the enzyme on its abortive RNA-2′-PO4-(ADP-2″OMe-ribose) reaction intermediate

Chemical synthesis of 2″OMeNAD+ and its deployment as an RNA 2′-phosphotransferase (Tpt1) ‘poison’ that traps the enzyme on its abortive RNA-2′-PO4-(ADP-2″OMe-ribose) reaction intermediate

Characterization of tRNA splicing enzymes RNA ligase and tRNA 2′-phosphotransferase from the pathogenic fungi Mucorales

Identification, characterization, and structure of a tRNA splicing enzyme RNA 5′-OH kinase from the pathogenic fungi Mucorales

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Structural basis for Tpt1-catalyzed 2′-PO4transfer from RNA and NADP(H) to NAD+

Cited by 3 publications

References 39 publications

Chemical synthesis of 2″OMeNAD+ and its deployment as an RNA 2′-phosphotransferase (Tpt1) ‘poison’ that traps the enzyme on its abortive RNA-2′-PO4-(ADP-2″OMe-ribose) reaction intermediate

Chemical synthesis of 2″OMeNAD+ and its deployment as an RNA 2′-phosphotransferase (Tpt1) ‘poison’ that traps the enzyme on its abortive RNA-2′-PO4-(ADP-2″OMe-ribose) reaction intermediate

Characterization of tRNA splicing enzymes RNA ligase and tRNA 2′-phosphotransferase from the pathogenic fungi Mucorales

Identification, characterization, and structure of a tRNA splicing enzyme RNA 5′-OH kinase from the pathogenic fungi Mucorales

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Product

Resources

About

Structural basis for Tpt1-catalyzed 2′-PO₄transfer from RNA and NADP(H) to NAD⁺