Division of Medical Genetics, College of Medicine, University of Arkansas for Medical Sciences, Little Rock, Arkansas 72205, USA.
Toxicol Sci. 2010 Dec;118(2):391-403. doi: 10.1093/toxsci/kfq296. Epub 2010 Sep 29.
Sulfotransferase isoform 1A1 (SULT1A1) is the most highly expressed hepatic sulfotransferase and is involved in the biotransformation of a wide variety of endo- and xenobiotics. A common single nucleotide polymorphism (SNP) in the coding region of SULT1A1, several proximal promoter SNPs, and copy number variation (CNV) are associated with altered enzymatic activity, but these variants do not fully account for the observed variation of SULT1A1 activity in human populations. In order to identify additional SNPs modulating SULT1A1 activity, we examined the 3'-untranslated region (UTR) of SULT1A1 in 97 liver samples. Direct sequencing revealed that two SNPs in the 3'-UTR (902A > G [rs6839] and 973C > T [rs1042157]) and one SNP in the 3'-flanking region (1307G > A [rs4788068]) were common. These SNPs are in absolute linkage disequilibrium with each other and in tight linkage with SULT1A1 1/2 (linkage coefficient D' 0.83) and are significantly associated with SULT1A1 messenger RNA (p = 0.001, 0.029, 0.021) and enzymatic activity (p = 0.022, 0.012, 0.027). We then examined the collective effects of 3'-UTR SNPs, SULT1A1 1/2, and CNV on SULT1A1 activity in 498 Caucasian and 127 African-American subjects by haplotype analysis. This analysis revealed that SULT1A1 1/2 does not contribute to the variation in SULT1A1 enzymatic activity when the 3'-UTR SNPs are included in the statistical model. Two major haplotypes (ACG and GTA) were significantly correlated with SULT1A1 activity, and when stratified by copy number, the SULT1A1 3'-UTR SNPs remain significantly associated with SULT1A1 enzymatic activity in Caucasians, but not in African-Americans. Subsequent functional characterization revealed that a microRNA, miR-631, regulates SULT1A1 expression in a genotype-specific manner.
磺基转移酶 1A1 同工型(SULT1A1)是表达最丰富的肝磺基转移酶,参与内源性和外源性多种物质的生物转化。SULT1A1 编码区的常见单核苷酸多态性(SNP)、几个近端启动子 SNP 和拷贝数变异(CNV)与酶活性改变有关,但这些变异并不能完全解释人类群体中 SULT1A1 活性的观察到的变异。为了鉴定调节 SULT1A1 活性的其他 SNP,我们在 97 个肝样本中检查了 SULT1A1 的 3'非翻译区(UTR)。直接测序显示,UTR 中的两个 SNP(902A>G[rs6839]和 973C>T[rs1042157])和 3'侧翼区域中的一个 SNP(1307G>A[rs4788068])很常见。这些 SNP 彼此之间处于绝对连锁不平衡状态,与 SULT1A1 1/2(连锁系数 D'0.83)紧密连锁,并且与 SULT1A1 信使 RNA(p=0.001、0.029、0.021)和酶活性(p=0.022、0.012、0.027)显著相关。然后,我们通过单体型分析检查了 3'UTR SNP、SULT1A1 1/2 和 CNV 对 498 名白种人和 127 名非裔美国人的 SULT1A1 活性的综合影响。该分析表明,当将 3'UTR SNP 纳入统计模型时,SULT1A1 1/2 不会导致 SULT1A1 酶活性的变化。两个主要单体型(ACG 和 GTA)与 SULT1A1 活性显著相关,按拷贝数分层后,SULT1A1 3'UTR SNP 仍然与白种人的 SULT1A1 酶活性显著相关,但与非裔美国人无关。随后的功能特征分析表明,microRNA,miR-631,以基因型特异性的方式调节 SULT1A1 的表达。