ANKK1和多巴胺D2受体基因中的单核苷酸多态性影响创伤性脑损伤后不久的认知结果:一项重复与扩展研究。
Single nucleotide polymorphisms in ANKK1 and the dopamine D2 receptor gene affect cognitive outcome shortly after traumatic brain injury: a replication and extension study.
作者信息
McAllister Thomas W, Flashman Laura A, Harker Rhodes C, Tyler Anna L, Moore Jason H, Saykin Andrew J, McDonald Brenna C, Tosteson Tor D, Tsongalis Gregory J
机构信息
Department of Psychiatry, Section of Neuropsychiatry, Dartmouth-Hitchcock Medical Center, Lebanon, NH 03756, USA.
出版信息
Brain Inj. 2008 Aug;22(9):705-14. doi: 10.1080/02699050802263019.
OBJECTIVE
The two objectives of this study were (1) to replicate the previous finding that a single nucleotide polymorphism (SNP) in the ANKK1 gene (SNP rs1800497 formerly known as the DRD2 TAQ1 A allele) is associated with measures of learning and response latency after traumatic brain injury (TBI) and (2) to further characterize the genetic basis of the effect by testing the strength of association and degree of linkage disequilibrium between the cognitive outcome measures and a selected ensemble of 31 polymorphisms from three adjacent genes in the region of rs1800497.
METHOD
A cohort of 54 patients with TBI and 21 comparison subjects were genotyped for the DRD2 TAQ1 A polymorphism (rs1800497). Ninety-three patients with TBI and 48 comparison subjects (the current cohort and an earlier independent cohort) were also genotyped for 31 additional neighbouring polymorphisms in NCAM, ANKK1 and DRD2. TBI patients were studied 1 month after injury. All subjects completed memory and attention tests, including the California Verbal Learning Test (CVLT) recognition task and the Gordon Continuous Performance Test (CPT).
RESULTS
As in a previous study the T allele of TAQ1 A (rs1800497) was associated with poorer performance on the CVLT recognition trial in both TBI and control subjects. There was also a significant diagnosis-by-allele interaction on CPT measures of response latency, largely driven by slower performance in the TBI participants with the T allele. Analysis of 31 additional neighbouring polymorphisms from NCAM, ANKK1 and DRD2 in the TBI patients showed four haploblocks. A haploblock of three SNPs in ANKK1 (rs11604671, rs4938016 and rs1800497 (TAQ1A)) showed the greatest association with cognitive outcome measures.
CONCLUSIONS
The results confirm a previously published association between the TAQ1 A (rs1800497) T allele and cognitive outcome measures 1 month after TBI and suggest that a haploblock of polymorphisms in ANKK1, rather than the adjacent DRD2 gene, has the highest association with these measures after TBI.
目的
本研究的两个目标是:(1)重复先前的研究结果,即ANKK1基因中的单核苷酸多态性(SNP)(SNP rs1800497,以前称为DRD2 TAQ1 A等位基因)与创伤性脑损伤(TBI)后的学习能力和反应潜伏期指标相关;(2)通过测试认知结果指标与rs1800497区域内三个相邻基因的31个多态性组成的选定集合之间的关联强度和连锁不平衡程度,进一步表征该效应的遗传基础。
方法
对54例TBI患者和21名对照受试者进行DRD2 TAQ1 A多态性(rs1800497)基因分型。还对93例TBI患者和48名对照受试者(当前队列和一个早期独立队列)进行了NCAM、ANKK1和DRD2中另外31个相邻多态性的基因分型。TBI患者在受伤后1个月进行研究。所有受试者均完成了记忆和注意力测试,包括加利福尼亚言语学习测试(CVLT)识别任务和戈登连续性能测试(CPT)。
结果
与先前的研究一样,TAQ1 A(rs1800497)的T等位基因与TBI患者和对照受试者在CVLT识别试验中的较差表现相关。在CPT反应潜伏期指标上也存在显著的诊断与等位基因交互作用,这主要是由携带T等位基因的TBI参与者表现较慢所驱动。对TBI患者中NCAM、ANKK1和DRD2的另外31个相邻多态性的分析显示有四个单倍型模块。ANKK1中三个SNP(rs11604671、rs4938016和rs1800497(TAQ1A))组成的单倍型模块与认知结果指标的关联最强。
结论
结果证实了先前发表的TAQ1 A(rs1800497)T等位基因与TBI后1个月的认知结果指标之间的关联,并表明ANKK1中的多态性单倍型模块,而非相邻的DRD2基因,与TBI后的这些指标关联度最高。
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