Anna Maria Wojdyła-Mamoń scite author profile

Adenosine 5'-phosphoramidate (NH2-pA) is a rare natural nucleotide and its biochemistry and biological functions are poorly recognized. All organisms have proteins that may be involved in the catabolism of NH2-pA. They are members of the HIT protein family and catalyze hydrolytic splitting of NH2-pA to 5'-AMP and ammonia. At least five HIT proteins have been identified in mammals; however, the enzymatic and molecular properties of only Fhit and Hint1 have been comprehensively studied. Our study focuses on the Hint2 protein purified by a simple procedure to homogeneity from sheep liver mitochondrial fraction (OaHint2). Hint1 protein was also prepared from sheep liver (OaHint1) and the molecular and kinetic properties of the two proteins compared. Both function as homodimers and behave as nucleoside 5'-phosphoramidate hydrolases. The molecular mass of the OaHint2 monomer is 16 kDa and that of the OaHint1 monomer 14.9 kDa. Among potential substrates studied, NH2-pA appeared to be the best; the Km and kcat values estimated for this compound are 6.6 μM and 68.3 s⁻¹, and 1.5 μM and 11.0 s⁻¹ per natively functioning dimer of OaHint2 and OaHint1, respectively. Studies of the rates of hydrolysis of different NH2-pA derivatives show that Hint2 is more specific towards compounds with a P-N bond than Hint1. The thermostability of these two proteins is also compared.

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Adenylylsulfate–ammonia adenylyltransferase activity is another inherent property of Fhit proteins

Wojdyła-Mamoń

Guranowski

2015

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SynopsisFhits (fragile histidine triad proteins) occur in eukaryotes but their function is largely unknown, although human Fhit is believed to act as a tumour suppressor. Fhits also exhibit dinucleoside triphosphatase, adenylylsulfatase and nucleoside phosphoramidase activities that in each case yield nucleoside 5 -monophosphate as a product. Due to the dinucleoside triphosphatase activity, Fhits may also be involved in mRNA decapping. In the present study, we demonstrate Fhit-catalysed ammonolysis of adenosine 5 -phosphosulfate, which results in the formation of adenosine 5 -phosphoramidate. This reaction has previously been associated with adenylylsulfate-ammonia adenylyltransferase (EC 2.7.7.51). Our finding shows that the capacity to catalyse ammonolysis is another inherent property of Fhits. Basic kinetic parameters and substrate specificity of this reaction catalysed by human Fhit are presented.

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Novel reactivity of Fhit proteins: catalysts for fluorolysis of nucleoside 5′-phosphoramidates and nucleoside 5′-phosphosulfates to generate nucleoside 5′-phosphorofluoridates

Wojdyła-Mamoń¹,

Zimny²,

Romanowska

et al. 2015

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Fragile histidine triad (HIT) proteins (Fhits) occur in all eukaryotes but their function is largely unknown. Human Fhit is presumed to function as a tumour suppressor. Previously, we demonstrated that Fhits catalyse hydrolysis of not only dinucleoside triphosphates but also natural adenosine 5'-phosphoramidate (NH2-pA) and adenosine 5'-phosphosulfate (SO4-pA) as well as synthetic adenosine 5'-phosphorofluoridate (F-pA). In the present study, we describe an Fhit-catalysed displacement of the amino group of nucleoside 5'-phosphoramidates (NH2-pNs) or the sulfate moiety of nucleoside 5'-phosphosulfates (SO4-pNs) by fluoride anion. This results in transient accumulation of the corresponding nucleoside 5'-phosphorofluoridates (F-pNs). Substrate specificity and kinetic characterization of the fluorolytic reactions catalysed by the human Fhit and other examples of involvement of fluoride in the biochemistry of nucleotides are described. Among other HIT proteins, human histidine triad nucleotide-binding protein (Hint1) catalysed fluorolysis of NH2-pA 20 times and human Hint2 40 times more slowly than human Fhit.

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Nucleoside 5′-Phosphoramidates Control the Phenylpropanoid Pathway in Vitis vinifera Suspension-Cultured Cells

Pietrowska‐Borek

Dobrogojski

Wojdyła-Mamoń

et al. 2021

IJMS

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It is known that cells contain various uncommon nucleotides such as dinucleoside polyphosphates (NpnN’s) and adenosine 5′-phosphoramidate (NH2-pA) belonging to nucleoside 5′-phosphoramidates (NH2-pNs). Their cellular levels are enzymatically controlled. Some of them are accumulated in cells under stress, and therefore, they could act as signal molecules. Our previous research carried out in Arabidopsis thaliana and grape (Vitis vinifera) showed that NpnN’s induced the expression of genes in the phenylpropanoid pathway and favored the accumulation of their products, which protect plants against stress. Moreover, we found that NH2-pA could play a signaling role in Arabidopsis seedlings. Data presented in this paper show that exogenously applied purine (NH2-pA, NH2-pG) and pyrimidine (NH2-pU, NH2-pC) nucleoside 5′-phosphoramidates can modify the expression of genes that control the biosynthesis of both stilbenes and lignin in Vitis vinifera cv. Monastrell suspension-cultured cells. We investigated the expression of genes encoding for phenylalanine ammonia-lyase (PAL1), cinnamate-4-hydroxylase (C4H1), 4-coumarate:coenzyme A ligase (4CL1), chalcone synthase (CHS1), stilbene synthase (STS1), cinnamoyl-coenzyme A:NADP oxidoreductase (CCR2), and cinnamyl alcohol dehydrogenase (CAD1). Each of the tested NH2-pNs also induced the expression of the trans-resveratrol cell membrane transporter VvABCG44 gene and caused the accumulation of trans-resveratrol and trans-piceid in grape cells as well as in the culture medium. NH2-pC, however, evoked the most effective induction of phenylpropanoid pathway genes such as PAL1, C4H1, 4CL1, and STS1. Moreover, this nucleotide also induced at short times the accumulation of N-benzoylputrescine (BenPut), one of the phenylamides that are derivatives of phenylpropanoid and polyamines. The investigated nucleotides did not change either the lignin content or the cell dry weight, nor did they affect the cell viability throughout the experiment. The results suggest that nucleoside 5′-phosphoramidates could be considered as new signaling molecules.

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