Sharma Shruti, Das Mitashree, Kumar Ashok, Marwaha Vishal, Shankar Subramanian, Singh Paramjeet, Raghu Padmanabhan, Aneja Ritu, Grover Rahul, Arya Vivek, Dhir Varun, Gupta Rajiva, Kumar Uma, Juyal Ramesh C, K Thelma B
Department of Genetics, University of Delhi South Campus, New Delhi, India.
Pharmacogenet Genomics. 2009 Oct;19(10):823-8. doi: 10.1097/fpc.0b013e328331b53e.
Inter-individual variations to methotrexate (MTX) response among rheumatoid arthritis (RA) patients have been attributed to clinical heterogeneity and genetic variations influencing MTX pharmacology. In this study, we analyzed the association of polymorphisms in ATIC, AMPD1, ADA, and ADORA2A from the purine biosynthetic pathway with MTX response in RA patients from north India. We also assessed the cumulative contribution of these polymorphisms together with those from the receptor-metabolizer-transporter and folate pathway genes that we have previously investigated.
RA patients recruited using the American College of Rheumatology criteria were grouped into good (n = 213) and poor (n = 68) responders to MTX, based on Disease Activity Score 28-3. Individual single nucleotide polymorphism association was tested using (chi)2 test, and cumulative contribution of all the single-nucleotide polymorphisms and cumulative contribution of all the SNPs and clinico-demographic factors were assessed using linear and logistic regression.
G allele of ADA rs244076 [P = 0.02, odds ratio (95% confidence interval): OR (95% CI) = 1.66 (1.01-2.75)]; and T allele of ADORA2A rs5751876 [P = 0.04, OR (95% CI) = 1.55 (1.01-2.37)] were associated with poor response, but did not stand Bonferroni correction. On regression analyses, FPGS rs1544105, TYMS rs2853539, DHFR rs7387, and ADA rs244076 were identified as putative predictors for MTX response. Carriers of the FPGS rs1544105 AA and AG genotypes [OR (95% CI) = 3.47 (1.19-10.12)] and TYMS rs2853539 AA genotype [OR (95% CI) = 2.76 (1.50-5.07)] were predictors of poor response in our patient population.
Genes from all the three pathways seem to contribute to MTX response in the Indian population. However, these observations need to be replicated in an independent sample set.
类风湿关节炎(RA)患者对甲氨蝶呤(MTX)反应的个体差异归因于临床异质性以及影响MTX药理学的基因变异。在本研究中,我们分析了来自嘌呤生物合成途径的ATIC、AMPD1、ADA和ADORA2A基因多态性与印度北部RA患者MTX反应之间的关联。我们还评估了这些多态性与我们之前研究过的受体 - 代谢酶 - 转运体和叶酸途径基因多态性的累积贡献。
根据美国风湿病学会标准招募的RA患者,基于疾病活动评分28 - 3,分为对MTX反应良好组(n = 213)和反应不佳组(n = 68)。使用卡方检验进行个体单核苷酸多态性关联测试,并使用线性和逻辑回归评估所有单核苷酸多态性的累积贡献以及所有单核苷酸多态性和临床人口统计学因素的累积贡献。
ADA rs244076的G等位基因[P = 0.02,优势比(95%置信区间):OR(95%CI)= 1.66(1.01 - 2.75)];以及ADORA2A rs5751876的T等位基因[P = 0.04,OR(95%CI)= 1.55(1.01 - 2.37)]与反应不佳相关,但未通过Bonferroni校正。回归分析显示,FPGS rs1544105、TYMS rs2853539、DHFR rs7387和ADA rs244076被确定为MTX反应的推定预测因子。FPGS rs1544105的AA和AG基因型携带者[OR(95%CI)= 3.47(1.19 - 10.12)]以及TYMS rs2853539的AA基因型携带者[OR(95%CI)= 2.76(1.50 - 5.07)]是我们患者群体中反应不佳的预测因子。
所有这三条途径的基因似乎都对印度人群的MTX反应有贡献。然而,这些观察结果需要在独立样本集中进行重复验证。
