与细胞锌稳态相关的人类遗传适应

IF 4.5 2区 生物学 Q1 Agricultural and Biological Sciences
Ana Roca-Umbert, Jorge Garcia-Calleja, Marina Vogel-González, Alejandro Fierro-Villegas, Gerard Ill-Raga, Víctor Herrera-Fernández, Anja Bosnjak, G. Muntané, Esteban Gutiérrez, F. Campelo, Raul Vicente, E. Bosch
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引用次数: 0

摘要

SLC30A9编码一种普遍存在的锌转运蛋白(ZnT9),并一直被认为是人类阳性选择的候选者。然而,还没有发现直接的适应性分子表型。我们的结果为在非洲和东亚的两个主要互补单倍型中进行定向选择提供了证据。这些单倍型与差异基因表达有关,但在ZnT9中的Met50Val取代(rs1047626)也有所不同,我们发现在丹尼索瓦人基因组中发现了纯合子,并显示出提示古老渗入的伴随特征。尽管我们发现具有不同rs1047626基因型的个体之间的全身锌含量没有显著差异,但我们证明,与祖先(ZnT9 50Met)变体相比,HEK293细胞中衍生的同种型(ZnT950Val)的表达显示出功能的增强。值得注意的是,发现ZnT9 50Val变体与线粒体和内质网对锌处理的差异有关,并对线粒体代谢产生影响。鉴于线粒体在骨骼肌中的重要作用,并且已知rs1047626的衍生等位基因与对几种神经精神特征的更大易感性有关,我们认为,对寒冷的适应可能驱动了这一选择事件,同时也影响了现代人患神经精神疾病的易感性。作者摘要先前在编码ZnT9蛋白的人SLC30A9基因中发现了阳性自然选择的对比大陆特征,ZnT9通过细胞膜转运锌。在这里,我们研究了自然选择在该基因周围区域靶向的遗传变异,以及可能带来的分子和全身变化。我们发现,分别在非洲和东亚极为常见的两种主要SLC30A9变体组合(单倍型)存在差异表达。这两个单倍型也在一个位点上不同,该位点在ZnT9处产生氨基酸差异;在非洲以外最常见的版本避免了内质网和线粒体中的锌过载,并直接影响线粒体活性。此外,我们发现这种替代物存在于Denisova中,并显示出可能提示适应性渐渗的伴随变异模式,已知这种替代物与对几种神经精神疾病的更大易感性有关。由于线粒体在骨骼肌能量代谢中发挥着重要作用,我们推测,对寒冷的适应可能是非洲以外地区这一选择事件的驱动因素,同时也影响了现代人类神经精神疾病的易感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Human genetic adaptation related to cellular zinc homeostasis
SLC30A9 encodes a ubiquitously zinc transporter (ZnT9) and has been consistently suggested as a candidate for positive selection in humans. However, no direct adaptive molecular phenotype has been demonstrated. Our results provide evidence for directional selection operating in two major complementary haplotypes in Africa and East Asia. These haplotypes are associated with differential gene expression but also differ in the Met50Val substitution (rs1047626) in ZnT9, which we show is found in homozygosis in the Denisovan genome and displays accompanying signatures suggestive of archaic introgression. Although we found no significant differences in systemic zinc content between individuals with different rs1047626 genotypes, we demonstrate that the expression of the derived isoform (ZnT9 50Val) in HEK293 cells shows a gain of function when compared with the ancestral (ZnT9 50Met) variant. Notably, the ZnT9 50Val variant was found associated with differences in zinc handling by the mitochondria and endoplasmic reticulum, with an impact on mitochondrial metabolism. Given the essential role of the mitochondria in skeletal muscle and since the derived allele at rs1047626 is known to be associated with greater susceptibility to several neuropsychiatric traits, we propose that adaptation to cold may have driven this selection event, while also impacting predisposition to neuropsychiatric disorders in modern humans. Author Summary Contrasting continental signatures of positive natural selection have been previously found in the human SLC30A9 gene encoding the protein ZnT9, which transports zinc across cell membranes. Here we investigate the genetic variants that have been targeted by natural selection in the surrounding region of this gene and which molecular and whole-body changes may have brought about. We found that two major SLC30A9 variant combinations (haplotypes) that are extremely frequent in Africa and East Asia, respectively, are expressed differentially. These two haplotypes also differ at one site that creates an amino acid difference at ZnT9; the version most often found outside Africa avoiding zinc overload in the endoplasmic reticulum and mitochondria and directly influencing mitochondrial activity. Moreover, we found that this substitution, which is known to be associated with greater susceptibility to several neuropsychiatric disorders, is present in the Denisova and displays accompanying patterns of variation that could be suggestive of adaptive introgression. Since mitochondria play an important role in skeletal muscle energy metabolism, we speculate that adaptation to cold may have driven this selection event outside Africa, while also impacting predisposition to neuropsychiatric disorders in modern humans.
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来源期刊
PLoS Genetics
PLoS Genetics 生物-遗传学
CiteScore
8.10
自引率
2.20%
发文量
438
审稿时长
1 months
期刊介绍: PLOS Genetics is run by an international Editorial Board, headed by the Editors-in-Chief, Greg Barsh (HudsonAlpha Institute of Biotechnology, and Stanford University School of Medicine) and Greg Copenhaver (The University of North Carolina at Chapel Hill). Articles published in PLOS Genetics are archived in PubMed Central and cited in PubMed.
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