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Pharmacogenetics of Methotrexate Therapy in Arthritis

甲氨蝶呤治疗关节炎的药物遗传学

基本信息

批准号：
6658063
负责人：
ALEXANDER STEVEN WHITEHEAD
金额：
$ 59.43万
依托单位：
UNIVERSITY OF PENNSYLVANIA
依托单位国家：
美国
项目类别：
财政年份：
2002
资助国家：
美国
起止时间：
2002-09-15 至 2007-08-31
项目状态：
已结题

项目摘要

DESCRIPTION (provided by applicant): Inflammatory diseases, including arthritis, are often associated with reduced life expectancy, due in part to an excess of cardiovascular disease deaths. Low dose methotrexate (MTX) therapy is a mainstay for the long-term management of arthritis. Arthritis patients with cardiovascular disease who are treated with MTX have higher cardiovascular mortality rates than their peers treated with alternative disease-modifying anti-rheumatoid drugs (DMARDs). In addition, there is considerable inter-individual variation in the clinical efficacy of MTX, and about 30% of patents experience unacceptable toxicity. Objective methods to identify those for whom MTX therapy will be effective and minimally toxic, without greatly enhancing cardiovascular disease risk, would therefore contribute significantly to the clinical management of arthritis and other inflammatory conditions. MTX inhibits dihydrofolate reductase, an enzyme involved in purine synthesis and a component of the broader folate/Hcy metabolic axis. Methylenetetrahydrofolate reductase (MTHFR) is pivotal in controlling the distribution of folate derivatives between the two main constituent pathways that serve cellular methylation reactions and nucleic acid synthesis. In addition, methionine synthase (MTR), cystathionine Beta-synthase (CBS), and methionine synthase reductase (MTRR) are involved in reactions that control Hcy concentrations. Functional polymorphisms of MTHFR, MTR, CBS and MTRR significantly modify intracellular levels of folate derivatives and/or circulating Hcy levels, thereby increasing the risk of Hcy-associated pathologies. These polymorphisms, alone or in combination, may "prime" the folate/Hcy metabolic axis to respond to MTX by adopting an extreme pathogenic phenotype, and may also be significant determinants of the efficacy and toxicity associated with the drug. We will access the above in a pharmacogenetic analysis of 300 arthritis patients who are about to embark on MTX therapy. Pre-treatment and in-treatment folate derivative, B vitamin and Hcy concentrations will be determined together with MTHFR, MTR, CBS, and MTRR genotypes to establish whether there are particular phenotypic and/or genotypic variables that can be used to predict MTX efficacy and toxicity, and the likelihood of MTX-mediated enhancement of Hcy-associated disease risk. This research may establish the genetic parameters that mandate the treatment of arthritic patients with either MTX or an alternative DMARD. It has the potential to facilitate individualized treatment protocols that are less empirical and therefore more effective, and to reduce the incidence of cardiovascular co-morbidity.

描述（由申请人提供）：炎症性疾病，包括关节炎，通常与预期寿命降低有关，部分原因是心血管疾病死亡过多。低剂量甲氨蝶呤（MTX）治疗是关节炎长期治疗的主要手段。患有心血管疾病的关节炎患者接受MTX治疗的心血管死亡率高于接受替代疾病缓解抗类风湿药物（DMARDs）治疗的同龄人。此外，MTX的临床疗效存在相当大的个体间差异，约30%的患者出现不可接受的毒性。因此，确定MTX治疗有效且毒性最小而不会大大增加心血管疾病风险的患者的客观方法将显著有助于关节炎和其他炎性疾病的临床管理。 MTX抑制二氢叶酸还原酶，这是一种参与嘌呤合成的酶，也是更广泛的叶酸/Hcy代谢轴的组成部分。亚甲基四氢叶酸还原酶（MTHFR）在控制叶酸衍生物在服务于细胞甲基化反应和核酸合成的两个主要组成途径之间的分布中是关键的。此外，甲硫氨酸合酶（MTR）、胱硫醚β-合酶（CBS）和甲硫氨酸合酶还原酶（MTRR）参与控制Hcy浓度的反应。MTHFR、MTR、CBS和MTRR的功能多态性显著改变叶酸衍生物的细胞内水平和/或循环Hcy水平，从而增加Hcy相关病理的风险。这些多态性，单独或组合，可以“启动”叶酸/同型半胱氨酸代谢轴，通过采用极端致病性表型响应MTX，也可能是与药物相关的疗效和毒性的重要决定因素。我们将在对300名即将开始MTX治疗的关节炎患者的药物遗传学分析中访问上述内容。将测定治疗前和治疗中叶酸衍生物、B族维生素和Hcy浓度以及MTHFR、MTR、CBS和MTRR基因型，以确定是否存在可用于预测MTX疗效和毒性的特定表型和/或基因型变量，以及MTX介导的Hcy相关疾病风险增加的可能性。这项研究可能会建立基因参数，要求用MTX或替代DMARD治疗关节炎患者。它有可能促进个体化治疗方案，减少经验，因此更有效，并减少心血管并发症的发生率。