Azathioprine metabolism

Peyrin-Biroulet L, Cadranel IF, Nousbaum JB, Oussalah A, Seddik M, Canva V, Cortot A, Sogni P, Gueant JL, Bigard MA, Roblin X, Bronowicki IP. Interaction of ribavirin with azathioprine metabolism potentially induces myelosup-pression. Ahment Pharmacol Ther 2008 28(8) 984-93. 

The daily dose of allopurinol is 300-600 mg. In combination with benzbromarone, the daily allopurinol dose is reduced to 100 mg. In general, allopurinol is well tolerated. The incidence of side effects is 2-3%. Exanthems, pruritus, gastrointestinal problems, and dty mouth have been observed. In rare cases, hair loss, fever, leukopenia, toxic epidermolysis (Lyell syndrome), and hqDatic dysfunction have been reported. Allopurinol inhibits the metabolic inactivation of the cytostatic dtugs azathioprine and 6-mercaptopurine. Accordingly, the administered doses of azathioprine and 6-mercaptopurine must be reduced if allopurinol is given simultaneously. 

Azathioprine, mycophenolate mofetil, and enteric-coated MPA are not metabolized through the CYP isozyme system therefore, they do not experience the same DDI profiles as cyclosporine, tacrolimus, and sirolimus. Azathioprine s major DDIs involve allopurinol, angiotensin-converting enzyme (ACE) inhibitors, aminosalicylates (e.g., mesalamine and sulfasalazine), and warfarin.11 The interaction with allopurinol is seen frequently and has clinical significance. Allopurinol inhibits xanthine oxidase, the enzyme responsible for metabolizing azathioprine. Combination of azathioprine and allopurinol has resulted in severe toxicities, particularly myelosuppression. It is recommended that concomitant therapy with azathioprine and allopurinol be avoided, but if combination therapy is necessary, the azathioprine doses must be reduced to one-third or one-fourth of the current dose. Use of azathioprine with the ACE inhibitors or aminosalicylates also can result in enhanced myelosuppression.11 Some case reports exist demonstrating that warfarin s therapeutic effects may be decreased by azathioprine.43-45... 

There are several important drug-drug interactions with allopurinol. The effects of both theophylline and warfarin may be potentiated by allopurinol. Azathioprine and 6-mercaptopurine are purines whose metabolism is inhibited... 

The number of drugs susceptible to S-methylation is still limited but greater than the number turned over by COMT. Thiopurine methyl transferase (TPMT) is an important enzyme responsible for detoxifying mercaptopurine—a drug used to treat leukemia— as well as azathioprine —a prodrug that is metabolized to mercaptopurine (Fig. 7.12). This enzyme is polymorphic and patients who are homozygous for the deficient enzyme experience severe toxicity when given usual doses of mercaptopurine (19). Similar aromatic and heterocyclic sulfhydryls can also be substrates for TPMT. The similar thiol... 

HI. Disruption of cell metabolism with inhibition of proliferation. At dosages below those needed to treat malignancies, some cytostatics are also employed for immunosuppression, e.g., azathioprine, methotrexate, and cyclophosphamide (p. 298). The antiproliferative effect is not specific for lymphocytes and involves both T- and B-cells. 

Since allopurinol is metabolized by the hepatic microsomal drug-metabohzing enzymes, coadministration of drugs also metabohzed by this system should be done with caution. Because allopurinol inhibits the oxidation of mercaptopurine and azathioprine, their individual administered doses must be decreased by as much as 75% when they are given together with allopurinol. Allopurinol may also increase the toxicity of other cytotoxic drugs (e.g., vidarabine). The actions of allopurinol are not antagonized by the coadministration of salicylates. 

Azathioprine is well absorbed following oral administration, with peak blood levels occurring within 1 to 2 hours. It is rapidly and extensively metabolized to 6-mercaptopurine, which is further converted in the liver and erythrocytes to a variety of metabolites, including 6-thiouric acid. Metabolites are excreted in the urine. The half-life of azathioprine and its metabolites in the blood is about 5 hours. 

Lennard L, Lilleyman JS. Variable mercaptopurine metabolism and treatment outcome in childhood lymphoblastic leukemia. J Clin Oncol 1989 7 1816-1823. Erratum itv.JClin Oncol 1990 8 567. Lennard L, Lewis IJ, Michelagnoli M et al. Thiopurine methyltransferase deficiency in childhood lymphoblastic leukaemia 6-mercaptopurine dosage strategies. MedPediatr Oncol 1997 29 252-255. Lennard L, Van Loon JA, Weinshilboum RM. Pharmaeogenetics of acute azathioprine toxicity relationship to thiopurine methyltransferase genetic polymorphism. Clin Pharmacol Ther 1989 46 149-154. 

Azathioprine is a cytotoxic inhibitor of purine synthesis effective for the control of tissue rejection in organ transplantation. It is also used in the treatment of autoimmune diseases. Its biologically active metabolite, mercaptopurine, is an inhibitor of DNA synthesis. Mercaptopurine undergoes further metabolism to the active antitumour and immunosuppressive thioinosinic acid. This inhibits the conversion of purines to the corresponding phosphoribosyl-5 phosphates and hypoxanthine to inosinic acid, leading to inhibition of cell division and this is the mechanism of the immunosuppression by azathioprine and mercaptopurine. Humans are more sensitive than other species to the toxic effects of the thiopurines, in particular those involving the haematopoietic system. The major limiting toxicity of the thiopurines is bone marrow suppression, with leucopenia and thrombocytopenia. Liver toxicity is another common toxic effect. 

The metabolism of azathioprine is bimodal in humans, with rapid metabolizers clearing the drug four times faster than slow metabolizers. Production of 6-thioguanine is dependent on thiopurine methyltransferase (TPMT), and patients with low or absent TPMT activity (0.3% of the population) are at particularly high risk of myelosuppression by excess concentrations of the parent drug if dosage is not adjusted. 

When chemotherapeutic mercaptopurines (eg, azathioprine) are given concomitantly with allopurinol, their dosage must be reduced by about 75%. Allopurinol may also increase the effect of cyclophosphamide. Allopurinol inhibits the metabolism of probenecid and oral anticoagulants... 

Azathioprine is well absorbed from the gastrointestinal tract and is metabolized primarily to mercaptopurine. Xanthine oxidase splits much of the active material to 6-thiouric acid prior to excretion in the urine. After administration of azathioprine, small amounts of unchanged drug and mercaptopurine are also excreted by the kidney, and as much as a twofold increase in toxicity may occur in anephric or anuric patients. Since much of the drug s inactivation depends on xanthine oxidase, patients who are also receiving allopurinol (see Chapters 36 and 54) for control of hyperuricemia should have the dose of azathioprine reduced to one-fourth to one-third the usual amount to prevent excessive toxicity. 

Allopurinol is used not only in treating the hyperuricemia associated with gout, but also in the secondary hyperuricemia associated with the use of antineoplastic agents. However, allopurinol may interfere with the metabolism of antineoplastic agents such as azathioprine and 6-mercaptopurine. 

Azathioprine is well absorbed from the gastrointestinal tract and is metabolized primarily to mercaptopurine. Xanthine oxidase splits much of the active material to 6-thiouric acid prior to... 

Allopurinol markedly reduces metabolism of the purine analogs, potentially leading to severe leukopenia. The dose of 6-mercaptopurine or azathioprine should be reduced by at least half in patients taking allopurinol. 

The special risk is observed in patients with hepatic or renal impairment. It is not advised to use allopurinol in acute attacks of gout, but it is useful in chronic gout. Excretion of allopurinol and its active metabolite oxypurinol is primarily via the kidneys and therefore the dosage should be reduced if renal function is impaired. The adverse effects have been reported in patients receiving allopurinol with thiazide diuretics, particularly in patients with impaired renal function. The metabolism of azathioprine and mercaptopurine is inhibited by allopurinol and their doses should be reduced to one-quarter to one-third of the usual dose when either of them is given with allopurinol to avoid potentially life-threatening toxicity.27-29... 

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