Leschziner Guy, Zabaneh Delilah, Pirmohamed M, Owen Andrew, Rogers Jane, Coffey Alison J, Balding David J, Bentley David B, Johnson Michael R
Imperial College, London, UK.
Pharmacogenet Genomics. 2006 Jun;16(6):439-50. doi: 10.1097/01.fpc.0000197467.21964.67.
The ATP-binding cassette (ABC) proteins are a superfamily of efflux pumps implicated as a mechanism for multidrug resistance in cytotoxic chemotherapy, immunosuppressive therapy, HIV and epilepsy. Genetic variation in P-glycoprotein, the product of the ABCB1 gene, is proposed to mediate de novo drug resistance, but associations between polymorphisms in ABCB1 and pharmacoresistance have produced conflicting results. Potential explanations for the inconsistency of results include inadequate characterization of gene structure, variation and linkage disequilibrium (LD) in ABCB1, as well as overlap in substrate specificity between ABCB1 and the various other drug transporters.
We undertook a fundamental analysis of gene structure, variation and LD in ABCB1 and four other drug transporter genes implicated in pharmacoresistance: ABCC1, ABCC2, ABCC5 and ABCB4. Manual annotation of the five genes revealed nine shorter alternative transcripts with new untranslated regions and one novel region of coding sequence, demonstrating that on-line annotations are incomplete. Sequencing of exons in 47 Caucasian individuals identified 75 novel single nucleotide polymorphisms (SNPs) previously undescribed in any public database, including 14 new coding sequence SNPs. Genotyping of 502 SNPs in 842 Caucasian individuals across the five genes revealed large blocks of high LD, and low haplotype diversity across all five genes that could be characterized by between 67 and 114 tagging SNPs, depending on the tagging criteria.
The study illustrates that publicly available data resources on genomic organization of genes and common variation can have important gaps and limitations, and establishes a comprehensive set of tagging SNPs for future association studies in pharmacoresistance.
ATP结合盒(ABC)蛋白是一个外排泵超家族,被认为是细胞毒性化疗、免疫抑制治疗、HIV感染和癫痫中多药耐药的一种机制。ABCB1基因产物P-糖蛋白的基因变异被认为可介导原发性耐药,但ABCB1基因多态性与药物耐药性之间的关联产生了相互矛盾的结果。结果不一致的潜在解释包括ABCB1基因结构、变异和连锁不平衡(LD)的特征描述不足,以及ABCB1与其他各种药物转运体之间底物特异性的重叠。
我们对ABCB1以及其他四个与药物耐药性相关的药物转运体基因:ABCC1、ABCC2、ABCC5和ABCB4进行了基因结构、变异和LD的基础分析。对这五个基因的人工注释揭示了九个具有新非翻译区的较短可变转录本和一个新的编码序列区域,表明在线注释并不完整。对47名白种人个体的外显子进行测序,鉴定出75个在任何公共数据库中均未描述过的新单核苷酸多态性(SNP),包括14个新的编码序列SNP。对842名白种人个体中五个基因的502个SNP进行基因分型,发现所有五个基因中都存在大片高LD区域,且单倍型多样性较低,根据标签标准,可由67至114个标签SNP来表征。
该研究表明,关于基因基因组组织和常见变异的公开可用数据资源可能存在重要差距和局限性,并为未来药物耐药性关联研究建立了一套全面的标签SNP。
