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Nucleotide pyrophosphatases/phosphodiesterases (NPPs) release nucleoside 5'-monophosphates from nucleotides and their derivatives. They exist both as membrane proteins, with an extracellular active site, and as soluble proteins in body fluids. The only well-characterized NPPs are the mammalian ecto-enzymes NPP1 (PC-1), NPP2 (autotaxin) and NPP3 (B10; gp130(RB13-6)). These are modular proteins consisting of a short N-terminal intracellular domain, a single transmembrane domain, two somatomedin-B-like domains, a catalytic domain, and a C-terminal nuclease-like domain. The catalytic domain of NPPs is conserved from prokaryotes to mammals and shows remarkable structural and catalytic similarities with the catalytic domain of other phospho-/sulfo-coordinating enzymes such as alkaline phosphatases. Hydrolysis of pyrophosphate/phosphodiester bonds by NPPs occurs via a nucleotidylated threonine. NPPs are also known to auto(de)phosphorylate this active-site threonine, a process accounted for by an intrinsic phosphatase activity, with the phosphorylated enzyme representing the catalytic intermediate of the phosphatase reaction. NPP1-3 have been implicated in various processes, including bone mineralization, signaling by insulin and by nucleotides, and the differentiation and motility of cells. While it has been established that most of these biological effects of NPPs require a functional catalytic site, their physiological substrates remain to be identified.

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The clinical implications of sunitinib-induced hypothyroidism: a prospective evaluation

Wolter

et al. 2008

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Sunitinib is approved for the treatment of metastatic renal cell carcinoma (RCC) and imatinib-resistant or -intolerant gastrointestinal stromal tumours (GIST). Several studies have identified unexpected rates of thyroid dysfunction with sunitinib treatment. We performed a prospective observational study with the aim of more accurately defining the incidence and severity of hypothyroidism in RCC or GIST patients receiving sunitinib. Thyroid function was assessed at baseline and on days 1 and 28 of each treatment cycle. Thyroid antibodies were assessed at baseline and during follow-up if abnormal thyroid function tests were recorded. Sixteen patients (27%) developed sub-or clinical hypothyroidism and required hormone replacement and 20 patients (34%) showed at least one elevated thyroid-stimulating hormone not requiring therapeutic intervention. Twenty patients (34%) did not develop any biochemical thyroid abnormality. Thus, sunitinib can induce (sub-) clinical hypothyroidism, warranting close monitoring of thyroid function. We propose a new algorithm for managing this side effect in clinical practise.

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Threonine Autophosphorylation and Nucleotidylation of the Hepatic Membrane Protein PC‐1

Stefan

Stalmans

1996

European Journal of Biochemistry

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The membrane protein plasma-cell-differentiation antigen 1 (PC-I) has been described as a phosphodiesterase-Ilnucleotide pyrophosphatase and as an autophosphorylating protein kinase. It has been suggested, however, that PC-1 is not a real protein kinase and that the autophosphorylated enzyme represents a nucleotidylated derivative, which is formed on Thr238 (murine PC-1) as a catalytic intermediate during has been shown to occur only at ATP concentrations below 5 pM. Autophosphorylation could also be differentiated from nucleotidylation by its higher resistance to alkaline treatment and its more basic pH optimum. An intestinal nucleotide pyrophosphatase with a structurally related catalytic site could not be autophosphorylated, which shows that autophosphorylation is not an intrinsic property of the nucleotide pyrophosphatase reaction. Autophosphorylation of PC-1 was associated with inactivation of its phosphodiesterase-Ihucleotide-pyrophosphatase activity. We propose that autophosphorylation of PC-1 on Thr238 at low ATP concentrations serves as an autoregulatory mechanism that makes Thr238 unavailable for participation in the hydrolysis of extracellular nucleotides when they become scarce.

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Differential regulation of the expression of nucleotide pyrophosphatases/phosphodiesterases in rat liver

Stefan

Gijsbers

Stalmans

1999

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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We propose the name nucleotide pyrophosphatases/phosphodiesterases (NPP) for the enzymes that release nucleoside-5'-monophosphates from various pyrophosphate and phosphodiester bonds. Three structurally related mammalian NPPs are known, i.e. NPPalpha (autotaxin), NPPbeta (B10/gp130RB13-6) and NPPgamma (PC-1). We report here that these isozymes have a distinct tissue distribution in the rat but that they are all three expressed in hepatocytes. In FAO rat hepatoma cells only the level of NPPgamma was stimulated by TGF-beta1. In rat liver, the concentration of the transcripts of all three isozymes was found to increase manyfold during the first weeks after birth, but the increased expression of the NPPalpha mRNA was transient. The level of the NPP transcripts transiently decreased after hepatectomy, but NPPalpha mRNA was also lost after sham operation, which suggests that it may belong to the negative acute-phase proteins. The loss of the beta- and gamma-transcripts after hepatectomy was not due to a decreased NPP gene transcription or an increased turnover of the mature transcripts. However, hepatectomy also caused a similar loss of the nuclear pool of the NPPbeta and NPPgamma mRNAs. We conclude that a deficient processing and/or an increased turnover of the NPP pre-mRNAs underlies the hepatectomy-induced decrease of the beta- and gamma-transcripts. A similar loss of nuclear NPPgamma mRNA was also noted after treatment with cycloheximide, indicating that protein(s) with a high turnover control the stability and/or processing of the immature NPPgamma transcript.

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Evaluation of thyroid dysfunction as a candidate surrogate marker for efficacy of sunitinib in patients (pts) with advanced renal cell cancer (RCC)

Wolter¹,

Stefan²,

Decallonne³

et al. 2008

JCO

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C Stefan

Nucleotide Pyrophosphatases/Phosphodiesterases on the Move

The clinical implications of sunitinib-induced hypothyroidism: a prospective evaluation

Threonine Autophosphorylation and Nucleotidylation of the Hepatic Membrane Protein PC‐1

Differential regulation of the expression of nucleotide pyrophosphatases/phosphodiesterases in rat liver

Evaluation of thyroid dysfunction as a candidate surrogate marker for efficacy of sunitinib in patients (pts) with advanced renal cell cancer (RCC)

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