Philip N. Edwards scite author profile

Thymidine phosphorylase (TP) is an important target enzyme for cancer chemotherapy because it is expressed at high levels in the hypoxic regions of many tumors and inhibitors of TP have been shown in animal model studies to inhibit angiogenesis and metastasis, and to promote tumor cell apoptosis. The 5-halo-6-[(2'-aminoimidazol-1'-yl)methyl]uracils (3, X = Cl, Br) are very potent inhibitors of E. coli and human TP with IC(50) values of approximately 20 nM when the enzyme concentration is approximately 40 nM. Their 4'-aminoimidazol-1'-yl analogues (4, X = Cl, Br) are >350-fold less active with IC(50) values of approximately 7 microM. The 5-unsubstituted analogues (3 and 4, X = H) were both less active than their 5-halo derivatives. Determination of pK(a) values and molecular modeling studies of these compounds in the active site of human TP was used to rationalize their activities. The finding that 3, X = Br has a poor pharmacokinetic (PK) profile in mice, coupled with the desire for tumor selectivity, led us to design prodrugs. The corresponding 2'-nitroimidazol-1'-ylmethyluracils (5, X = Cl, Br) are >1000-fold less active (IC(50) 22-24 microM) than their 2'-amino analogues and are reduced to the 2'-amino inhibitors (3, X = Cl, Br) by xanthine oxidase (XO). As XO is also highly expressed in many tumors, the 2'-nitro prodrugs have the potential to selectively deliver the potent 2'-aminoimidazol-1'-yl TP inhibitors into hypoxic solid tumors.

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The preclinical pharmacology of “Arimidex” (Anastrozole; ZD1033) — a potent, selective aromatase inhibitor

Dukes

Edwards

Large

et al. 1996

The Journal of Steroid Biochemistry and Molecular Biology

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Potential Tumor-Selective Nitroimidazolylmethyluracil Prodrug Derivatives: Inhibitors of the Angiogenic Enzyme Thymidine Phosphorylase

et al. 2002

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Thymidine phosphorylase (TP) is an angiogenic growth factor and a target for anticancer drug design. Molecular modeling suggested that 2'-aminoimidazolylmethyluracils would be potent inhibitors of TP. The novel 5-halo-2-aminoimidazolylmethyluracils (4b/4c) were very potent inhibitors of E. coli TP (IC50 approximately 20 nM). Contrastingly, the corresponding 2'-nitroimidazolylmethyluracil (as bioreductively activated) prodrugs (3b/3c) were 1000-fold less active (IC50 22-24 microM). This approach may be used to selectively deliver TP inhibitors into hypoxic regions of solid tumors where TP is overexpressed.

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Uses of Fluorine in Chemotherapy

Edwards¹

1994

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Philip N. Edwards

Aminoimidazolylmethyluracil Analogues as Potent Inhibitors of Thymidine Phosphorylase and Their Bioreductive Nitroimidazolyl Prodrugs

The preclinical pharmacology of “Arimidex” (Anastrozole; ZD1033) — a potent, selective aromatase inhibitor

Potential Tumor-Selective Nitroimidazolylmethyluracil Prodrug Derivatives: Inhibitors of the Angiogenic Enzyme Thymidine Phosphorylase

Uses of Fluorine in Chemotherapy

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