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人类肝脏UGT2B15的发育表达。

Human hepatic UGT2B15 developmental expression.

作者信息

Divakaran Karthika, Hines Ronald N, McCarver D Gail

机构信息

Department of Pediatrics, Medical College of Wisconsin, Milwaukee, Wisconsin

Department of Pediatrics, Medical College of Wisconsin, Milwaukee, Wisconsin.

出版信息

Toxicol Sci. 2014 Sep;141(1):292-9. doi: 10.1093/toxsci/kfu126. Epub 2014 Jun 30.

DOI:10.1093/toxsci/kfu126
PMID:24980262
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4271124/
Abstract

Human hepatic UGT2B15 developmental expression changes may alter the metabolism of important drugs and toxicants such as bisphenol A (BPA). Previously, UGT2B15 ontogeny knowledge consisted of transcript data, a dubious surrogate for protein expression. Herein, UGT2B15 protein content was determined in human hepatic microsomes (n = 236, 8 weeks gestation to 18 years). The impact of a common, functional single nucleotide polymorphism (g.253G>T), present in UGT2B15*2 and *5 alleles, was also tested. UGT2B15 expression began during late fetal life, at about 18% of mature values (medians = 48, 267 pmoles/mg of microsomal protein, respectively; p < 0.001). UGT2B15 neonatal (n = 39) and late fetal (≥28 weeks, n = 10) content was similar, but lower than that of infants between 3 and 15 weeks age (n = 46; medians = 38, 48, 404 pmoles/mg microsomal protein, respectively; p < 0.001). Values for the latter group were higher compared with the remaining age group (15 weeks to 18 years; n = 82, p < 0.001). UGT2B15 expression varied 31-fold across the entire sample, and within groups, ranged from 4- to 27-fold. Among postnatal samples, age group, the presence of g.253T and male gender were each significantly associated with greater UGT2B15 expression (p < 0.001, <0.01, and <0.05, respectively; stepwise linear regression). In summary, hepatic UGT2B15 protein onset begins in late gestation; however, the greatest rate of change occurs during the first few weeks after birth. We speculate that the fetus and neonate may have lower clearance of some UGT2B15 substrates, such as BPA, compared with older individuals.

摘要

人类肝脏UGT2B15的发育表达变化可能会改变双酚A(BPA)等重要药物和毒物的代谢。此前,UGT2B15个体发育的知识仅包含转录数据,这对于蛋白质表达来说是一个不可靠的替代指标。在此,我们测定了人肝微粒体(n = 236,妊娠8周龄至18岁)中UGT2B15的蛋白质含量。我们还测试了UGT2B152和5等位基因中存在的一种常见功能性单核苷酸多态性(g.253G>T)的影响。UGT2B15的表达在胎儿晚期开始,约为成熟值的18%(中位数分别为48、267 pmol/mg微粒体蛋白;p < 0.001)。UGT2B15在新生儿(n = 39)和胎儿晚期(≥28周,n = 10)时的含量相似,但低于3至15周龄婴儿(n = 46;中位数分别为38、48、404 pmol/mg微粒体蛋白;p < 0.001)。后一组的值高于其余年龄组(15周龄至18岁;n = 82,p < 0.001)。在整个样本中,UGT2B15的表达变化了31倍,在各年龄组内,变化范围为4至27倍。在出生后的样本中,年龄组、g.253T的存在以及男性性别均与更高的UGT2B15表达显著相关(分别为p < 0.001、<0.01和<0.05;逐步线性回归)。总之,肝脏UGT2B15蛋白的表达在妊娠晚期开始;然而,最大变化率发生在出生后的头几周。我们推测,与年长个体相比,胎儿和新生儿对某些UGT2B15底物(如双酚A)的清除率可能较低。

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