Inosine monophosphate dehydrogenase (IMPDH), the rate limiting enzyme in the de novo synthesis of guanine nucleotides, catalizes the oxidation of inosine monophosphate (IMP) to xanthosine monophosphate (XMP). Because of its critical role in purine biosynthesis, IMPDH is a drug design target for antineoplastic, antiinfective, and immunosuppressive chemotherapy. Two type of IMPDH inhibitors are currently in clinical use or under development: nucleoside inhibitors, such as ribavirin, tiazofurin and mizoribine, and non-nucleoside, as mycophenolic acid. Tiazofurin, and its selenium analog selenazofurin, are C-glycosyl nucleosides endowed with antitumor activity which have to be converted in sensitive cells to the active forms, the dinucleotides NAD+ analogs TAD and SAD, respectively. It was hypothesized that the inhibitory activity of both tiazofurin and selenazofurin is due to an attractive electrostatic interaction between the heterocyclic sulfur or selenium atom and the furanose oxygen 1'. This interaction constrains rotation about the C-glycosidic bond in tiazofurin and selenazofurin and in their active anabolites TAD and SAD. This hypothesis was confirmed by the invetigation of several C-nucleosides related to those compounds. Structure-activity relathionships studies revealed that S or Se in position 2 in thiazole or selenazole moiety with respect to the glycosidic bond is essential for cytotoxicity and IMPDH inhibitory activity of tiazofurin and selenazofurin, while the N atom is not. Computational methods suggested that rotational constraint around the C-glycosidic bond is determined both by favorable intramolecular (1-4) electrostatic interaction between the partial positive sulfur or selenium and the negative oxygen of the ribose and unfavorable van der Waals contacts between the heteroatoms and the ribose C2'-H and O4'.

C-Nucleoside Analogs of Tiazofurin and Selenazofurin as Inosine 5'-Monophosphate Deydrogenase Inhibitors

FRANCHETTI, Palmarisa;CAPPELLACCI, Loredana;GRIFANTINI, Mario;
2003-01-01

Abstract

Inosine monophosphate dehydrogenase (IMPDH), the rate limiting enzyme in the de novo synthesis of guanine nucleotides, catalizes the oxidation of inosine monophosphate (IMP) to xanthosine monophosphate (XMP). Because of its critical role in purine biosynthesis, IMPDH is a drug design target for antineoplastic, antiinfective, and immunosuppressive chemotherapy. Two type of IMPDH inhibitors are currently in clinical use or under development: nucleoside inhibitors, such as ribavirin, tiazofurin and mizoribine, and non-nucleoside, as mycophenolic acid. Tiazofurin, and its selenium analog selenazofurin, are C-glycosyl nucleosides endowed with antitumor activity which have to be converted in sensitive cells to the active forms, the dinucleotides NAD+ analogs TAD and SAD, respectively. It was hypothesized that the inhibitory activity of both tiazofurin and selenazofurin is due to an attractive electrostatic interaction between the heterocyclic sulfur or selenium atom and the furanose oxygen 1'. This interaction constrains rotation about the C-glycosidic bond in tiazofurin and selenazofurin and in their active anabolites TAD and SAD. This hypothesis was confirmed by the invetigation of several C-nucleosides related to those compounds. Structure-activity relathionships studies revealed that S or Se in position 2 in thiazole or selenazole moiety with respect to the glycosidic bond is essential for cytotoxicity and IMPDH inhibitory activity of tiazofurin and selenazofurin, while the N atom is not. Computational methods suggested that rotational constraint around the C-glycosidic bond is determined both by favorable intramolecular (1-4) electrostatic interaction between the partial positive sulfur or selenium and the negative oxygen of the ribose and unfavorable van der Waals contacts between the heteroatoms and the ribose C2'-H and O4'.
2003
0841237808
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11581/113610
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