Ross S. Firestone scite author profile

Human methionine S-adenosyltransferase (MAT2A) catalyzes the formation of S-adenosylmethionine (SAM) from ATP and methionine. Synthetic lethal genetic analysis has identified MAT2A as an anticancer target in tumor cells lacking expression of 5′-methylthioadenosine phosphorylase (MTAP). Approximately 15% of human cancers are MTAP−/−. The remainder can be rendered MTAP− through MTAP inhibitors. We used kinetic isotope effect (KIE), commitment factor (Cf), and binding isotope effect (BIE) measurements combined with quantum mechanical (QM) calculations to solve the transition state structure of human MAT2A. The reaction is characterized by an advanced SN2 transition state. The bond forming from the nucleophilic methionine sulfur to the 5′-C of ATP is 2.03 Å at the transition state (bond order of 0.67). Departure of the leaving group triphosphate of ATP is well advanced and forms a 2.32 Å bond between the 5′-C of ATP and the oxygen of the triphosphate (bond order of 0.23). Interaction of MAT2A with its MAT2B regulatory subunit causes no change in the intrinsic KIEs, indicating the same transition state structure. The transition state for MAT2A is more advanced along the reaction coordinate (more product-like) than that from the near-symmetrical transition state of methionine adenosyltransferase from E. coli.

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Heat Capacity Changes for Transition-State Analogue Binding and Catalysis with Human 5′-Methylthioadenosine Phosphorylase

Firestone

Cameron

Karp

et al. 2016

ACS Chem. Biol.

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Human 5′-methylthioadenosine phosphorylase (MTAP) catalyzes the phosphorolysis of 5′-methylthioadenosine (MTA). Its action regulates cellular MTA and links polyamine synthesis to S-adenosylmethionine (AdoMet) salvage. Transition state analogues with picomolar dissociation constants bind to MTAP in an entropically driven process at physiological temperatures, suggesting increased hydrophobic character or dynamic structure for the complexes. Inhibitor binding exhibits a negative heat capacity change (−ΔCp), and thus the changes in enthalpy and entropy upon binding are strongly temperature-dependent. The ΔCp of inhibitor binding by isothermal titration calorimetry does not follow conventional trends and is contrary to that expected from the hydrophobic effect. Thus, ligands of increasing hydrophobicity bind with increasing values of ΔCp. Crystal structures of MTAP complexed to transition-state analogues MT-DADMe-ImmA, BT-DADMe-ImmA, PrT-ImmA, and a substrate analogue, MT-tubercidin, reveal similar active site contacts and overall protein structural parameters, despite large differences in ΔCp for binding. In addition, ΔCp values are not correlated with Kd values. Temperature dependence of presteady state kinetics revealed the chemical step for the MTAP reaction to have a negative heat capacity for transition state formation (−ΔCp‡). A comparison of the ΔCp‡ for MTAP presteady state chemistry and ΔCp for inhibitor binding revealed those transition-state analogues most structurally and thermodynamically similar to the transition state. Molecular dynamics simulations of MTAP apoenzyme and complexes with MT-DADMe-ImmA and MT-tubercidin show small, but increased dynamic motion in the inhibited complexes. Variable temperature CD spectroscopy studies for MTAP–inhibitor complexes indicate remarkable protein thermal stability (to Tm = 99 °C) in complexes with transition-state analogues.

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Kinetic Isotope Effects and Transition State Structure for Hypoxanthine-Guanine-Xanthine Phosphoribosyltransferase from Plasmodium falciparum

2017

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Plasmodium falciparum parasites are purine auxotrophs that rely exclusively on the salvage of preformed purines from their human hosts to supply the requirement for purine nucleotides. Hypoxanthine-guanine-xanthine phosphor-ibosyltransferase (HGXPRT) catalyzes the freely reversible Mg2+-dependent conversion of 6-oxopurine bases to their respective nucleotides and inorganic pyrophosphate. The phosphoribosyl group is derived from 5-phospho-α-D-ribosyl 1-pyrophosphate (PRPP). The enzyme from malaria parasites (PfHGXPRT) is essential as hypoxanthine is the major precursor in purine metabolism. We used specific heavy atom labels in PRPP and hypoxanthine to measure primary (1-14C and 9-15N) and secondary (1-3H and 7-15N) intrinsic kinetic isotope effect (KIE) values for PfHGXPRT. Intrinsic isotope effects contain information for understanding enzymatic transition state properties. The transition state of PfHGXPRT was explored by matching KIE values predicted from quantum mechanical calculations to the intrinsic values determined experimentally. This approach provides information about PfHGXPRT transition state bond lengths, geometry, and atomic charge distribution. The transition state structure of PfHGXPRT was determined in the physiological direction of addition of ribose 5-phosphate to hypoxanthine by overcoming the chemical instability of PRPP. The transition state for PfHGXPRT forms nucleotides through a well-developed and near-symmetrical DN*AN, SN1-like transition state.

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The Effects of Low‐Level Laser Light Exposure on Sperm Motion Characteristics and DNA Damage

Firestone

Esfandiari

Moskovtsev

et al. 2012

Journal of Andrology

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The objective of this study was to determine the effects of low-level laser light exposure on the motility of spermatozoa and on DNA damage. Thirty-three semen samples were collected for routine analysis and were classified as normospermic, oligospermic, or asthenospermic. After routine semen analysis was performed, residual semen was divided into treated and control aliquots. Treated samples were exposed to a 30-second infrared laser pulse of 50 mW/cm 2 at 905 nm, a wavelength thought to increase light-sensitive cytochrome c oxidase in the mitochondrial electron transport chain. Samples were then incubated at 37uC, and aliquots were analyzed at 30 minutes and 2 hours using computerassisted semen analysis. After incubation, 250 mL of each sample was frozen at 280uC until DNA fragmentation analysis by flow cytometry. A significant increase in motility, most prominent in oligospermic and asthenospermic samples (85% increase), was observed 30 minutes after the treatment (P , .0001). No significant increase in DNA damage compared with control samples was observed. Significant changes in sperm motion kinetics were observed. Low-level laser light exposure appears to have a positive short-term effect on the motility of treated spermatozoa and did not cause any increase in DNA damage measured at 2 hours. We conclude that some cases of asthenospermia may be related to mitochondrial dysfunction. The implications of this study in terms of future clinical applications needs further investigation.

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Ross S. Firestone

The Transition-State Structure for Human MAT2A from Isotope Effects

Heat Capacity Changes for Transition-State Analogue Binding and Catalysis with Human 5′-Methylthioadenosine Phosphorylase

Kinetic Isotope Effects and Transition State Structure for Hypoxanthine-Guanine-Xanthine Phosphoribosyltransferase from Plasmodium falciparum

The Effects of Low‐Level Laser Light Exposure on Sperm Motion Characteristics and DNA Damage

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