El-Monsor Shobowale-Bakre

Thiopurine methyltransferase activity and the use of azathioprine in inflammatory bowel disease

Background : Azathioprine therapy is discontinued in one‐third of patients with inflammatory bowel disease because of toxicity or a lack of clinical response. Patients with thiopurine methyltransferase (TPMT) deficiency are intolerant to azathioprine, whilst carriers are at increased risk of side‐effects.

Mechanism of allopurinol induced TPMT inhibition

Up to 1/5 of patients with wildtype thiopurine-S-methyltransferase (TPMT) activity prescribed azathioprine (AZA) or mercaptopurine (MP) demonstrate a skewed drug metabolism in which MP is preferentially methylated to yield methylmercaptopurine (MeMP). This is known as thiopurine hypermethylation and is associated with drug toxicity and treatment non-response. Co-prescription of allopurinol with low dose AZA/MP (25-33%) circumvents this phenotype and leads to a dramatic reduction in methylated metabolites; however, the biochemical mechanism remains unclear. Using intact and lysate red cell models we propose a novel pathway of allopurinol mediated TPMT inhibition, through the production of thioxanthine (TX, 2-hydroxymercaptopurine). In red blood cells pre-incubated with 250 μM MP for 2h prior to the addition of 250 μM TX or an equivalent volume of Earles balanced salt solution, there was a significant reduction in the concentration of MeMP detected at 4h and 6h in cells exposed to TX (4 h, 1.68, p=0.0005, t-test). TX acts as a direct TPMT inhibitor with an apparent Ki of 0.329 mM. In addition we have confirmed that the mechanism is relevant to in vivo metabolism by demonstrating raised urinary TX levels in patients receiving combination therapy. We conclude that the formation of TX in patients receiving combination therapy with AZA/MP and allopurinol, likely explains the significant reduction of methylated metabolites due to direct TPMT inhibition.

Demonstration of thiopurine methyltransferase activity in the erythrocytes of cats.

Azathioprine is a purine analogue used as an immunosuppressive and immunomodulator agent in various mammals, including cats. Several adverse reactions have been reported and have limited the use of the drug in the cat. Adverse reactions to azathioprine in humans have been correlated with reduced activity of thiopurine methyltransferase (TPMT) in erythrocytes. The purpose of this preliminary study was to determine if cats have TPMT activity in their erythrocytes and to compare the values obtained with the normal range for humans and the normal range for dogs in a preliminary report. Activity of the enzyme was measured in blood samples drawn from 41 cats. Blood also was taken from 5 dogs. The mean erythrocyte TPMT activity in the cats was 2.4 +/- 0.4 nmol (range, 1.2-3.9 nmol) per hour per milliliter of red blood cells (U/mL RBC) or 2-8 nmol per hour per gram of hemoglobin (U/g Hb). This range was far lower than the normal human range (8-15 U/mL RBC; 16-33 U/g Hb) and was of monopolar distribution. This observation apparently precludes any diagnostic purpose in assaying erythrocyte TPMT in this species. Erythrocyte TPMT activity in the 5 dogs ranged from 5.5 to 13.1 U/mL RBC (11-27 U/g Hb), which was comparable with normal and carrier ranges for humans, but proof of TPMT genetic polymorphism in either species will require genotyping studies.

Mutation in the ITPA gene predicts intolerance to azathioprine

Inosine triphosphate pyrophosphatase (ITPase) deficiency occurs with polymorphic frequencies in Caucasians and results in the benign accumulation of the inosine nucleotide ITP. In 62 patients treated with azathioprine for inflammatory bowel disease, the ITPA 94C>A deficiency-associated allele was significantly associated with adverse drug reactions (OR 4.2, 95% CI 1.6-11.5, p = 0.0034). Significant associations were found for flu-like symptoms (OR 4.7, 95% CI 1.2-18.1, p = 0.0308), rash (OR 10.3, 95% CI 4.7-62.9, p = 0.0213) and pancreatitis (OR 6.2, CI 1.1-32.6, p = 0.0485). Polymorphism in the ITPA gene thus predicts AZA intolerance. Alternative immunosuppressive drugs, particularly 6-thioguanine, should be considered for AZA-intolerant patients with ITPase deficiency.