Metaanalysis of Methylenetetrahydrofolate Reductase (MTHFR) Polymorphisms Affecting Methotrexate Toxicity

DISCUSSION

The primary findings of our investigation are the increased odds ratio of MTX toxicity used to treat RA associated with the C677T polymorphism in a fixed-effects model. There was no association between the A1298C polymorphism and toxicity.

This metaanalysis illustrates the paucity of data about the pharmacogenetics of one of the most commonly used disease- modifying antirheumatic drugs. The C677T and A1298C polymorphisms are just 2 of over a dozen polymorphisms reported in the MTHFR gene; of those 12, only 7 have been associated with efficacy or toxicity in RA³⁴. The C677T polymorphism was first described in the mid- 1990s; this SNP leads to decreased activity of the MTHFR enzyme; the homozygous variant has about 30% of the function of the wild type^35,36. The heterozygous variant has about 60% of the function of the wild type. The A1298C polymorphism was first discovered in 1998; the homozygous variant has about 60% of the function of the wild type^37,38.

In attempting to draw a collective conclusion from the individual trials, it is important to comment on the strengths and weaknesses of each. The first article assessing the connection between the C677T polymorphism and toxicity, van Ede, et al 2001²³, focused on discontinuation due to toxicity or elevation of LFT. In addition, patients filled out a “standard toxicity questionnaire” to assess other side effects. The primary purpose of the study was actually to assess in a prospective manner the effects of folic acid and folinic acid supplementation on MTX efficacy and toxicity in patients with RA, and this analysis used only a random subset of patients from the original study. This study is confounded somewhat by the variable use of folic acid supplementation among the RA patients — one-third of patients received placebo, one-third received daily folic acid, and one-third received folinic acid weekly. While this study’s^2,3 strengths include a thorough statistical analysis, including definition of patient numbers needed for adequate power, toxicity in the study was defined as discontinuation. Many patients suffer from side effects insufficient to warrant discontinuation, and most of the other studies did not discriminate between minor and more significant toxicities in their analyses.

Urano and colleagues assessed the role of both the C677T and A1298C polymorphisms²². There is no discussion of numbers needed for adequate power of this crosssectional analysis, and there is no description of how these patients were chosen from the outpatient clinic population in Tokyo. In addition, patients in the study did not receive doses of MTX higher than 12.5 mg, markedly different from conventional therapy elsewhere. The authors also do not discriminate between transaminitis and less severe side effects, such as stomatitis or alopecia. The authors do note that no patient in their study had both the 677T and 1298C haplotype. Urano’s group published a second report on MTX polymorphisms several years later, this time with Taniguchi as the lead author²¹. The purpose of the study was to validate their previous work. The design was retrospective, with patients chosen randomly from their outpatient clinic population at the Institute of Rheumatology, Tokyo Women’s Medical University. The study also examined both polymorphisms. Again, there is no discussion of power. In addition, less than one-third of the patients in the study received folic acid supplementation, and more than half of patients received 6 mg or less MTX. Toxicities and adverse events are not clearly defined in the study beyond a definition of transaminitis.

Kumagai, et al²⁰, another group based in Japan, studied both polymorphisms. This was a prospective analysis, with the primary purpose of assessing the effects of several polymorphisms. The authors do not state where patients were recruited from. They also do not discuss how many patients they needed for adequate power²⁰. The authors also employed a maximum dose of 12 mg MTX in the study. While toxicities are broken down by frequency, the authors use the aggregate of all adverse events, not discriminating between minor and more significant side effects. Unlike most of the other studies, this one does discriminate between heterozygous and homozygous genotypes and rate of adverse events.

Berkun and colleagues also studied both polymorphisms¹⁸. This was a prospective study, with 93 consecutive RA patients recruited from 3 different rheumatology outpatient clinics in Israel. In contrast to the other studies, the definition of toxicity is more clearly described. However, the authors use a composite “side effects” result, and do not discuss severe versus mild effects. MTX doses are a little higher in this population, with an average dose just under 12 mg weekly. In addition, patients received an average dose of over 5 mg folate supplementation daily.

Aggarwal, et al¹⁷ analyzed only the C677T polymorphism, in a retrospective study selecting patients randomly from an outpatient clinic in Lucknow, India. All patients received folic acid supplementation, and MTX doses were similar to Berkun’s study¹⁸. Toxicity was better defined in this study; the authors broke down rates of toxicity for specific genotypes as any, hematologic, hepatic, gastrointestinal, and pulmonary. Only one other study in this analysis provided similar data on toxicity.

Kim and colleagues¹⁹ also studied only the C677T polymorphism. Of the 8 studies, this prospective study in Seoul, South Korea, was by far the largest. The mean MTX dose was similar to the previous 2 studies, 11.6 mg weekly, and all patients received daily folic acid supplementation. Toxicities were well defined by the authors, and they note which patients required temporary versus permanent withdrawal. The authors also provide data on specific toxicities related to genotype.

Lastly, Wessels, et al²⁴ assessed toxicity related to both C677T and A1298C polymorphisms. The patients were a subcohort of the BeSt trial. All patients received folic acid supplementation, but average MTX dose was not noted. Toxicity was well defined, the authors present data on specific toxicities for each genotype, and they also discriminate between the heterozygous and homozygous genotype.

An additional variable that may have clinical influence is the time from initiation or titration of MTX dose to onset of adverse effects. This clearly would be an important component in assessing the risk of medication and for patient counselling. However, the data presented in the articles in this analysis were insufficient to assess whether the presence or absence of the respective SNP had an effect on time to adverse event.

Another potential issue in studying pharmacogenetics is the influence of multiple SNP on the efficacy or toxicity of a drug. While a single SNP may not have significance, the combination of several SNP for a given protein may lead to significant changes in function that increase or decrease toxicity or efficacy or both. To date, no study has been published assessing the presence and effects of both C677T and A1298C in patients with RA. Other studies have found a correlation between the presence of both SNP and outcome, including increased frequency of neural tube defects, and patients heterozygous for both SNP have significantly decreased MTHFR activity, compared to patients with only one SNP, and the expected increase in homocysteine levels as well³⁷.

Analyzing the data presented here, it is unclear whether the fixed or random-effects model is the most appropriate analytic tool, as the frequency of the respective SNP in various populations has not been fully explored among all patients with RA. In Caucasians and Asians, 12% to 15% of individuals are homozygous for TT and as many as 50% are heterozygous for the C677T polymorphism^39,40. The C677T polymorphism has a frequency of about 35% in North America^36,41,42. For the A1298C polymorphism, the homozygous CC polymorphism among Caucasians was present in 7%–12% of the population, and the allelic frequency was about 33%^37,43,44. Nonetheless, it is likely that regardless of penetrance of the polymorphism, the clinical impact that it has would be the same no matter where the study was performed or the frequency of the polymorphism within each study population, so the fixed-effects model, which demonstrated a clear and significant association between the C677T polymorphism and MTX toxicity, may be more applicable. It is also notable that none of the studies in our analysis discusses the racial or ethnic background of participants. As the rate of the different SNP may be different in different ethnic groups, these data would be useful to understand the effect of a given SNP and the utility of studying different SNP in different patient populations.

The strengths of our study include the size of the analysis, with over 1400 patients for the C677T analysis and over 660 for the A1298C analysis. In addition, the relative merits of each study are discussed, with a focus on the differences in both the treatments and toxicity analyses of the different studies. This analysis has limitations as well; first, there is an inherent heterogeneity to metaanalysis, and there were differences in definition of toxicity, MTX dose, and use of folic acid supplement among the different studies. Second, not all studies discriminated between the heterozygous and homozygous genotype. Because of this, the metaanalysis was performed combining all patients that deviated from the wild type, allowing all studies to be compared in the metaanalysis.

In conclusion, as pharmacogenetics evolves, more and larger studies are needed to assess the role of various polymorphisms for drug efficacy and toxicity. However, until larger studies are carried out, metaanalysis of pooled data is the best tool to validate genetic associations with efficacy and toxicity. Our results illustrate the paucity of reliable pharmacogenetic data on a very commonly used antirheumatic drug and the potential role that pharmacogenetics can play in tailoring drug therapy for an individual patient.