Structure-activity relationship of cytoplasmic 5′-nucleotidase substrate sites

Składanowski, Andrzej C.; Hoffmann, Carsten; Krass, Joachim D.; Jastorff, Bernd; Makarewicz, Wieslaw

doi:10.1042/bj3141001

Cited by 12 publications

(10 citation statements)

References 39 publications

(61 reference statements)

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“…5A), followed by a rise in MPrib. This suggests that the MPrib is made by dephosphorylation of tIMP by a phosphatase or nucleotidase (Skladanowski et al, 1996;Hunsucker et al, 2001), followed by rapid excretion of the nucleoside via a nucleoside transporter (Baldwin et al, 1999). As expected, intracellular tXMP and TXrib concentrations follow the rise in tIMP in the cells with some delay (Fig.…”

mentioning

confidence: 81%

“…Any mechanism that reduces the intracellular concentration of tGMP may act as a potential resistance mechanism. As mentioned above, 5Ј-nucleotidase reduces the tNMP pool and has been linked to thiopurine resistance (Rosman et al, 1974;Skladanowski et al, 1996). Furthermore, TPMT methylates 6MP, forming MeMP, which reduces the 6MP concentration and toxicity (Lennard et al, 1987).…”

Section: Discussionmentioning

confidence: 99%

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Thiopurine Metabolism and Identification of the Thiopurine Metabolites Transported by MRP4 and MRP5 Overexpressed in Human Embryonic Kidney Cells

et al. 2002

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Mercaptopurines have been used as anticancer agents for more than 40 years, and most acute lymphoblastic leukemias are treated with 6-mercaptopurine (6MP) or 6-thioguanine (TG). Overexpression of the two related multidrug resistance proteins MRP4 and MRP5 has been shown to confer some resistance against mercaptopurines, which has been attributed to extrusion of mercaptopurine metabolites by these transporters. We have analyzed the mercaptopurine metabolites formed in human embryonic kidney cells and determined which metabolites are extruded by MRP4 and MRP5. Incubation with 6MP led to the formation of thioinosine and thioxanthosine metabolites and we found that thio-IMP was transported by both MRP4 and MRP5; MRP5 showed the highest transport rate. In contrast, only MRP5 transported thioxanthosine monophosphate (tXMP). During incubation with TG, the monophosphorylated form of thioguanosine was transported by both MRP4 and MRP5; the highest transport rate was for MRP4. Similarly, only 6-methylthio-IMP was formed during incubation with 6-methyl mercaptopurine riboside. This compound was a substrate for both MRP4 and MRP5; MRP4 showed the highest transport rate. Our results show that all major thiopurine monophosphates important in the efficacy of mercaptopurine treatment are transported by MRP4 and MRP5, although the substrate specificity of the two transporters differs in detail.

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mentioning

confidence: 81%

Section: Discussionmentioning

confidence: 99%

Thiopurine Metabolism and Identification of the Thiopurine Metabolites Transported by MRP4 and MRP5 Overexpressed in Human Embryonic Kidney Cells

et al. 2002

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“…The substrate specificity of 5´NTs is based on its recognition of the nucleobase. Not surprisingly, hydrogen-bond formation with the substituent in the 6-position of the purine ring and the hydrophobic attractions play major roles in the substrate specificity of 5´NTs [164]. The electron pair on N-1 is important in substrate binding of cN-II but is not a prerequisite for cN-I.…”

Section: Structure-activity Relationshipsmentioning

confidence: 99%

5'-Nucleotidases, Nucleosides and their Distribution in the Brain: Pathological and Therapeutic Implications

Kovács

Dobolyi

Kékesi

et al. 2013

CMC

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Elements of the nucleoside system (nucleoside levels, 5'-nucleotidases (5'NTs) and other nucleoside metabolic enzymes, nucleoside transporters and nucleoside receptors) are unevenly distributed in the brain, suggesting that nucleosides have region-specific functions in the human brain. Indeed, adenosine (Ado) and non-Ado nucleosides, such as guanosine (Guo), inosine (Ino) and uridine (Urd), modulate both physiological and pathophysiological processes in the brain, such as sleep, pain, memory, depression, schizophrenia, epilepsy, Huntington's disease, Alzheimer's disease and Parkinson's disease. Interactions have been demonstrated in the nucleoside system between nucleoside levels and the activities of nucleoside metabolic enzymes, nucleoside transporters and Ado receptors in the human brain. Alterations in the nucleoside system may induce pathological changes, resulting in central nervous system (CNS) diseases. Moreover, several CNS diseases such as epilepsy may be treated by modulation of the nucleoside system, which is best achieved by modulating 5'NTs, as 5'NTs exhibit numerous functions in the CNS, including intracellular and extracellular formation of nucleosides, termination of nucleoside triphosphate signaling, cell adhesion, synaptogenesis and cell proliferation. Thus, modulation of 5'NT activity may be a promising new therapeutic tool for treating several CNS diseases. The present article describes the regionally different activities of the nucleoside system, demonstrates the associations between these activities and 5'NT activity and discusses the therapeutic implications of these associations.

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“…Likewise, human 5 0 -nucleotidase activity was affected by ADP in range concentrations from 0 to 2 mM, increasing its specific activity from 1 to 38 mM Pi/min/mg protein (Hunsucker et al, 2001). On the other hand, when Skladanowski et al (1996) were working with 5 0 -nucleotidase from rat they observed an ADP activator effect in range from 0 to 1 mM, in which its specific activity increased from 0.1 to 0.3 U/ mg. Nevertheless, both ATP and ADP may also act as inhibitors depending on the enzyme source (Naito & Lowenstein, 1981).…”

Section: Effect Of Atp and Adpmentioning

confidence: 99%

“…Skladanowski, Hoffmann, Krass, Jastorff, and Makarewicz (1996) detected a biphasic behavior in purified enzyme of pigeon heart, 5 0 -nucleotidase was activated in the range from 0 to 500 mM with a max peak of 50 mM. Willadsen, Nielsen, and Riding (1989) reported 70% Figure 3.…”

Section: Effect Of Nacl Mgcl 2 and Caclmentioning

confidence: 99%

Partial characterization of 5′-nucleotidase from giant squid (Dosidicus gigas) mantle Caracterización parcial de la enzima 5′-nucleotidasa del manto de calamar gigante (Dosidicus gigas)

Pacheco‐Aguilar

Ocaño‐Higuera

Ezquerra‐Brauer

et al. 2010

CyTA - Journal of Food

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The most important cephalopod resource in the northwestern area of Mexico is the jumbo squid whose postmortem biochemical behavior has been studied in detail. Adenosine triphosphate (ATP) degradation in this organism is different than the other species because of the fast degradation of adenosine monophosphate (AMP) metabolite in mantle. In this research, AMP deaminase from jumbo squid mantle was partially characterized. The enzyme showed an optimum behavior at 50 8C, the enzyme lost more than 90% of its activity within 15 min from 55 to 60 8C, and the enzyme remained stable for 30 min from 10 to 50 8C. It was also stable within the pH range of 3.0-5.0 and exhibited an optimum activity at pH 4.5. Enzyme was strongly activated by Mg þ2 and weakly activated by Ca þ2 . ATP was an excellent activator even in a low concentration, while adenosine diphosphate (ADP) did it at higher concentrations. These results suggest that enzyme might be regulated by the adenylate energy charge.Keywords: giant squid; 5 0 -nucleotidase; characterization; regulation; AMP El calamar gigante es el cefalo´podo ma´s importante en el noroeste de Me´xico y su bioquı´mica posmortem ya ha sido estudiada en detalle. En este organismo la degradacio´n de ATP es diferente respecto a otras especies ya que el metabolito AMP es degradado muy ra´pidamente en el manto. En la presente investigacio´n la enzima AMP deaminasa del manto de calamar gigante fue parcialmente caracterizada. La enzima mostro´un comportamiento o´ptimo a 50 8C, de 55 a 60 8C perdio´ma´s del 90% de su actividad en 15 min y de 10 a 50 8C se mantuvo estable por 30 min. Fue tambie´n estable en el rango de pH de 3,0 a 5,0 y mostro´una actividad o´ptima a 4,5. La enzima fue fuertemente activada por Mg þ2 y de´bilmente activada por Ca þ2 . ATP fue un excelente activador a bajas concentraciones, mientras que ADP lo fue a altas concentraciones. Los resultados sugieren que la enzima puede ser regulada por medio de la carga energe´tica adenilada.

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Structure-activity relationship of cytoplasmic 5′-nucleotidase substrate sites

Cited by 12 publications

References 39 publications

Thiopurine Metabolism and Identification of the Thiopurine Metabolites Transported by MRP4 and MRP5 Overexpressed in Human Embryonic Kidney Cells

Thiopurine Metabolism and Identification of the Thiopurine Metabolites Transported by MRP4 and MRP5 Overexpressed in Human Embryonic Kidney Cells

5'-Nucleotidases, Nucleosides and their Distribution in the Brain: Pathological and Therapeutic Implications

Partial characterization of 5′-nucleotidase from giant squid (Dosidicus gigas) mantle Caracterización parcial de la enzima 5′-nucleotidasa del manto de calamar gigante (Dosidicus gigas)

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Structure-activity relationship of cytoplasmic 5′-nucleotidase substrate sites

Cited by 12 publications

References 39 publications

Thiopurine Metabolism and Identification of the Thiopurine Metabolites Transported by MRP4 and MRP5 Overexpressed in Human Embryonic Kidney Cells

Thiopurine Metabolism and Identification of the Thiopurine Metabolites Transported by MRP4 and MRP5 Overexpressed in Human Embryonic Kidney Cells

5&#39;-Nucleotidases, Nucleosides and their Distribution in the Brain: Pathological and Therapeutic Implications

Partial characterization of 5′-nucleotidase from giant squid (Dosidicus gigas) mantle Caracterización parcial de la enzima 5′-nucleotidasa del manto de calamar gigante (Dosidicus gigas)

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5'-Nucleotidases, Nucleosides and their Distribution in the Brain: Pathological and Therapeutic Implications