R. Westwood scite author profile

A protein with high affinity (K d 12 nM) for the immunomodulatory compound A77 1726 has been isolated from mouse spleen and identified as the mitochondrial enzyme dihydroorotate dehydrogenase (EC 1.3.3.1). The purified protein had a pI 9.6 -9.8 and a subunit M r of 43,000. Peptides derived from the mouse protein displayed high microsequence similarity to human and rat dihydroorotate dehydrogenase with, respectively, 35 and 39 out of 43 identified amino acids identical. Dihydroorotate dehydrogenase catalyzes the fourth step in de novo pyrimidine biosynthesis. The in vitro antiproliferative effects of A77 1726 are mediated by enzyme inhibition and can be overcome by addition of exogenous uridine. The rank order of potency of A77 1726 and its analogues in binding or enzyme inhibition was similar to that for inhibition of the mouse delayed type hypersensitivity response. It is proposed that inhibition of dihydroorotate dehydrogenase is an in vivo mechanism of action of the A77 1726 class of compounds. This was confirmed using uridine to counteract inhibition of the murine acute graft versus host response.

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2-(Oxadiazolyl)- and 2-(thiazolyl)imidazo[1,2-a]pyrimidines as agonists and inverse agonists at benzodiazepine receptors

Tully¹,

Gardner²,

Gillespie³

et al. 1991

J. Med. Chem.

262

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Oxadiazoles, like the benzoyl group in a series of imidazo[1,2-a]pyrimidines, have been found to be metabolically stable alternatives to ester groups in benzodiazepine-receptor ligands. This change has lead to a number of compounds which bind to the receptors and which exhibit potent agonist activity in a food-motivated conflict test thought to predict anxiolytic properties. Compounds 4, 5, and 13 were equipotent with chlordiazepoxide but showed little or no myorelaxant effects. Replacing the oxadiazole group by thiazole gave compounds such as 23 which binds to the benzodiazepine receptor but exhibits the intrinsic activity of a partial inverse agonist in vivo.

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Purification of human dihydro-orotate dehydrogenase and its inhibition by A77 1726, the active metabolite of leflunomide

Bruneau¹,

Yea²,

Spinella-Jaegle³

et al. 1998

137

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Leflunomide is currently in phase-III clinical trials for the treatment of rheumatoid arthritis. In this study, we have focused our efforts on the study of the mechanism of action of the active metabolite of leflunomide, A77 1726, in cells and tissue of human origin. The human high-affinity binding protein for radiolabelled A77 1726 was purified from solubilized U937 membranes by following the binding activity through the purification process and was characterized as the mitochondrial enzyme dihydro-orotate dehydrogenase (DHO-DH). The human and murine enzyme displayed identical pI and molecular mass values on SDS/PAGE (43 kDa), which contrasts notably with previous reports suggesting a molecular mass of 50 kDa for the human enzyme. DHO-DH activity was inhibited by A77 1726 and its analogue HR325 with similar potency in U937 and human spleen membrane preparations. HR325 was found to be anti-proliferative for phytohaemagglutinin-stimulated human peripheral blood mononuclear cells, at the same concentrations that caused accumulation of DHO and depletion of uridine. Supplementation of the cultures with exogenous uridine led to partial abrogation of the anti-proliferative effect. This is in line with our recent demonstration that the anti-proliferative effect in vitro of A77 1726 on lipopolysaccharide-stimulated mouse spleen cells was mediated by DHO-DH inhibition [Williamson, Yea, Robson, Curnock, Gadher, Hambleton, Woodward, Bruneau, Hambleton, Moss et al., (1995) J. Biol. Chem. 270, 22467-22472]. Thus, DHO-DH inhibition by A77 1726 and its analogues is responsible for the anti-proliferative effects in vitro of the compounds on human cells and is likely to be responsible for some of its effects in vivo.

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Synthesis, Structure−Activity Relationships, and Pharmacokinetic Properties of Dihydroorotate Dehydrogenase Inhibitors: 2-Cyano-3-cyclopropyl-3-hydroxy- N-[3‘-methyl-4‘-(trifluoromethyl)phenyl]propenamide and Related Compounds

et al. 1996

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The active metabolite (2) of the novel immunosuppressive agent leflunomide (1) has been shown to inhibit the enzyme dihydroorotate dehydrogenase (DHODH). This enzyme catalyzes the fourth step in de novo pyrimidine biosynthesis. A series of analogues of the active metabolite 2 have been synthesized. Their in vivo biological activity determined in rat and mouse delayed type hypersensitivity has been found to correlate well with their in vitro DHODH potency. The most promising compound (3) has shown activity in rat and mouse collagen (II)-induced arthritis models (ED50 = 2 and 31 mg/kg, respectively) and has shown a shorter half-life in man when compared with leflunomide. Clinical studies in rheumatoid arthritis are in progress.

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Phase I Clinical and Pharmacokinetic Study of Oral Sapacitabine in Patients With Acute Leukemia and Myelodysplastic Syndrome

Kantarjian

Garcia‐Manero

O’Brien

et al. 2010

JCO

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R. Westwood

Dihydroorotate Dehydrogenase Is a High Affinity Binding Protein for A77 1726 and Mediator of a Range of Biological Effects of the Immunomodulatory Compound

2-(Oxadiazolyl)- and 2-(thiazolyl)imidazo[1,2-a]pyrimidines as agonists and inverse agonists at benzodiazepine receptors

Purification of human dihydro-orotate dehydrogenase and its inhibition by A77 1726, the active metabolite of leflunomide

Synthesis, Structure−Activity Relationships, and Pharmacokinetic Properties of Dihydroorotate Dehydrogenase Inhibitors: 2-Cyano-3-cyclopropyl-3-hydroxy- N-[3‘-methyl-4‘-(trifluoromethyl)phenyl]propenamide and Related Compounds

Phase I Clinical and Pharmacokinetic Study of Oral Sapacitabine in Patients With Acute Leukemia and Myelodysplastic Syndrome

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