Drug Interactions between mercaptopurine and Methotrexate LPF Sodium

MONITOR: Limited data suggest that consumption of greater than 180 mg/day of caffeine may interfere with the efficacy of methotrexate (MTX) in patients with rheumatoid arthritis. The exact mechanism of interaction is unknown but may be related to the antagonistic effect of caffeine on adenosine receptors, as anti-inflammatory properties of MTX is thought to result from the accumulation of adenosine. In a study of 39 patients treated with MTX 7.5 mg/week (without folate supplementation) for 3 months, patients with high caffeine intake (more than 180 mg/day) experienced significantly less improvement in morning stiffness and joint pain from baseline than patients with low caffeine intake (less than 120 mg/day). There were no significant differences between the responses of patients with moderate caffeine intake (120 to 180 mg/day) and those of the other 2 groups. In an interview of 91 patients treated with MTX, 26% of patients who discontinued the drug were regular coffee drinkers compared to only 2% of those still receiving the drug. Because treatment failure was the reason for MTX discontinuation in 80% of patients who discontinued, the investigators suggested that caffeine may have interfered with MTX efficacy.

MANAGEMENT: Until further information is available, the potential for interaction should be considered in patients who consume substantial amounts of caffeine and caffeine-containing foods and are prescribed methotrexate for rheumatoid arthritis. It may be appropriate to limit caffeine intake if an interaction is suspected in cases of treatment failure.

ADJUST DOSING INTERVAL: The oral bioavailability of mercaptopurine (6-MP) is highly variable and may be affected by administration with food or dairy products. The mechanism by which food may impact the absorption of 6-MP has not been fully established, but cow's milk specifically has been found to contain a high concentration of xanthine oxidase, the enzyme responsible for first-pass metabolism of 6-MP to the inactive metabolite 6-thiouric acid. Incubation with cow's milk at 37 C induced a 30% catabolism of 6-MP within 30 minutes in one investigation. However, food or dairy intake with 6-MP in study patients has yielded variable results. In a study conducted in 17 children with acute lymphoblastic leukemia (ALL), oral 6-MP 75 mg/m2 administered 15 minutes after a standardized breakfast including 250 mL of milk resulted in a prolonged Tmax and a lower Cmax and AUC compared with 6-MP administration in the fasting state (mean Tmax: 2.3 hours vs. 1.2 hours; mean Cmax: 0.63 uM vs. 0.98 uM; mean AUC: 105 uM vs. 143 uM, respectively). In a different study, oral 6-MP 31.2 to 81.1 mg/m2 administered to 7 subjects with ALL 15 minutes after a standard breakfast consisting of orange juice, cereal, and toast also trended towards longer Tmax and lower Cmax values compared to 6-MP administration after an overnight fast, although the differences were not statistically significant. Two subjects had blood samples that were all below the limit of detection (20 ng/mL) following administration in the fed state. Likewise, a study of 15 pediatric patients reported non-significant 20% to 22% decreases in the Cmax and AUC of 6-MP when administered after a standardized breakfast containing both milk and cheese compared to administration after fasting, but in contrast to the two earlier studies, Tmax was decreased from 1.8 to 1.1 hours. Another study of 10 children with ALL or non-Hodgkin's lymphoma given an average oral 6-MP dose of 63 mg/m2 revealed substantial interpatient variations in the effect of food intake on 6-MP plasma levels, with Cmax changes ranging from 67% decrease to 81% increase and AUC changes ranging from 53% decrease to 86% increase relative to administration following fasting. Collectively for the group, however, there was no statistically significant difference in mean Tmax, Cmax, or AUC between the fed and fasting states. In this study, patients were fed what they normally ate at home rather than a standardized breakfast, which may have contributed to the inconsistent results. The clinical significance of the data and observations from these studies has not been determined. An interaction with milk was suspected in a four-year-old male with ALL who experienced persistent elevations of peripheral blood counts during maintenance with 6-MP and methotrexate despite increasing doses of 6-MP up to 160% of the calculated dosage for his body surface area (75 mg/m2). Cessation of concomitant milk ingestion allowed for the 6-MP dosage to return to 75 mg/m2 and resulted in control of peripheral blood counts within a week. Other data do not support a clinically relevant interaction with food or dairy products. In a prospective study of 441 patients aged 2 to 20 years receiving 6-MP for ALL maintenance, investigators found no significant association between relapse risk and 6-MP ingestion habits including administration with food versus never with food and administration with milk/dairy versus never with milk/dairy. Among the 56.2% of patients who were considered adherent by the study, there was also no significant association between red cell thioguanine nucleotide (active metabolite) levels and taking 6-MP with food versus without or taking with milk/dairy versus without. However, taking 6-MP with milk/dairy was associated with a 1.9-fold increased risk for nonadherence. These results suggest that taking 6-MP with food or milk/dairy products may not influence clinical outcome but may hinder patient adherence. Poor 6-MP adherence has been associated with an increased risk of childhood ALL relapse.

MANAGEMENT: To minimize variability in absorption and systemic exposure, the timing of mercaptopurine administration should be standardized in relation to food intake (i.e., always with food or always on an empty stomach). Some authorities suggest avoiding concomitant administration with milk or dairy products, although the clinical relevance of their effects on mercaptopurine bioavailability has not been established. As a precaution, patients may consider taking mercaptopurine at least 1 hour before or 2 hours after milk or dairy ingestion if they are able to do so without compromising treatment adherence.

GENERALLY AVOID: Coadministration of methotrexate with other agents known to induce hepatotoxicity may potentiate the risk of liver injury. Methotrexate, especially at higher dosages or during prolonged treatment, has been associated with severe hepatotoxicity including acute hepatitis, chronic fibrosis, cirrhosis, and fatal liver failure.

MANAGEMENT: The risk of hepatic injury should be considered when methotrexate is used with other potentially hepatotoxic agents (e.g., acetaminophen; alcohol; androgens and anabolic steroids; antituberculous agents; azole antifungal agents; ACE inhibitors; cyclosporine (high dosages); disulfiram; endothelin receptor antagonists; interferons; ketolide and macrolide antibiotics; kinase inhibitors; minocycline; nonsteroidal anti-inflammatory agents; nucleoside reverse transcriptase inhibitors; proteasome inhibitors; retinoids; sulfonamides; tamoxifen; thiazolidinediones; tolvaptan; vincristine; zileuton; anticonvulsants such as carbamazepine, hydantoins, felbamate, and valproic acid; lipid-lowering medications such as fenofibrate, lomitapide, mipomersen, niacin, and statins; herbals and nutritional supplements such as black cohosh, chaparral, comfrey, DHEA, kava, pennyroyal oil, and red yeast rice). Baseline and periodic monitoring of hepatic function is recommended, while liver biopsy may be warranted during long-term use of methotrexate. Patients should be advised to seek medical attention if they experience potential signs and symptoms of hepatotoxicity such as fever, rash, itching, anorexia, nausea, vomiting, fatigue, right upper quadrant pain, dark urine, pale stools, and jaundice.

MONITOR: Limited data suggest that consumption of greater than 180 mg/day of caffeine may interfere with the efficacy of methotrexate (MTX) in patients with rheumatoid arthritis. The exact mechanism of interaction is unknown but may be related to the antagonistic effect of caffeine on adenosine receptors, as anti-inflammatory properties of MTX is thought to result from the accumulation of adenosine. In a study of 39 patients treated with MTX 7.5 mg/week (without folate supplementation) for 3 months, patients with high caffeine intake (more than 180 mg/day) experienced significantly less improvement in morning stiffness and joint pain from baseline than patients with low caffeine intake (less than 120 mg/day). There were no significant differences between the responses of patients with moderate caffeine intake (120 to 180 mg/day) and those of the other 2 groups. In an interview of 91 patients treated with MTX, 26% of patients who discontinued the drug were regular coffee drinkers compared to only 2% of those still receiving the drug. Because treatment failure was the reason for MTX discontinuation in 80% of patients who discontinued, the investigators suggested that caffeine may have interfered with MTX efficacy.

MANAGEMENT: Until further information is available, the potential for interaction should be considered in patients who consume substantial amounts of caffeine and caffeine-containing foods and are prescribed methotrexate for rheumatoid arthritis. It may be appropriate to limit caffeine intake if an interaction is suspected in cases of treatment failure.