Single-mitochondrion sequencing uncovers distinct mutational patterns and heteroplasmy landscape in mouse astrocytes and neurons.

IF 4.4 1区 生物学 Q1 BIOLOGY
Parnika S Kadam, Zijian Yang, Youtao Lu, Hua Zhu, Yasemin Atiyas, Nishal Shah, Stephen Fisher, Erik Nordgren, Junhyong Kim, David Issadore, James Eberwine
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引用次数: 0

Abstract

Background: Mitochondrial (mt) heteroplasmy can cause adverse biological consequences when deleterious mtDNA mutations accumulate disrupting "normal" mt-driven processes and cellular functions. To investigate the heteroplasmy of such mtDNA changes, we developed a moderate throughput mt isolation procedure to quantify the mt single-nucleotide variant (SNV) landscape in individual mouse neurons and astrocytes. In this study, we amplified mt-genomes from 1645 single mitochondria isolated from mouse single astrocytes and neurons to (1) determine the distribution and proportion of mt-SNVs as well as mutation pattern in specific target regions across the mt-genome, (2) assess differences in mtDNA SNVs between neurons and astrocytes, and (3) study co-segregation of variants in the mouse mtDNA.

Results: (1) The data show that specific sites of the mt-genome are permissive to SNV presentation while others appear to be under stringent purifying selection. Nested hierarchical analysis at the levels of mitochondrion, cell, and mouse reveals distinct patterns of inter- and intra-cellular variation for mt-SNVs at different sites. (2) Further, differences in the SNV incidence were observed between mouse neurons and astrocytes for two mt-SNV 9027:G > A and 9419:C > T showing variation in the mutational propensity between these cell types. Purifying selection was observed in neurons as shown by the Ka/Ks statistic, suggesting that neurons are under stronger evolutionary constraint as compared to astrocytes. (3) Intriguingly, these data show strong linkage between the SNV sites at nucleotide positions 9027 and 9461.

Conclusions: This study suggests that segregation as well as clonal expansion of mt-SNVs is specific to individual genomic loci, which is important foundational data in understanding of heteroplasmy and disease thresholds for mutation of pathogenic variants.

单线粒体测序揭示了小鼠星形胶质细胞和神经元中不同的突变模式和异质结构。
背景:当有害的mtDNA突变累积破坏 "正常 "的mt驱动过程和细胞功能时,线粒体(mt)异质性可导致不良的生物学后果。为了研究这种 mtDNA 变异的异质性,我们开发了一种中等通量的 mt 分离程序,以量化小鼠神经元和星形胶质细胞中的 mt 单核苷酸变异(SNV)情况。在这项研究中,我们扩增了从小鼠单个星形胶质细胞和神经元中分离出的 1645 个单个线粒体的 mt 基因组,以(1)确定 mt-SNV 的分布和比例以及整个 mt 基因组中特定目标区域的突变模式;(2)评估神经元和星形胶质细胞之间 mtDNA SNV 的差异;以及(3)研究小鼠 mtDNA 中变异的共分离情况。结果:(1)数据显示,mt基因组的特定位点允许SNV出现,而其他位点似乎受到严格的净化选择。在线粒体、细胞和小鼠水平上进行的嵌套分层分析揭示了不同位点的 mt-SNV 在细胞间和细胞内的不同变异模式。(2)此外,在小鼠神经元和星形胶质细胞中观察到两种 mt-SNV 9027:G > A 和 9419:C > T 的 SNV 发生率存在差异,这表明这些细胞类型之间的突变倾向存在差异。如 Ka/Ks 统计量所示,神经元中出现了纯化选择,这表明神经元与星形胶质细胞相比受到了更强的进化约束。(3)耐人寻味的是,这些数据显示核苷酸位置 9027 和 9461 的 SNV 位点之间存在很强的联系:这项研究表明,mt-SNVs 的分离和克隆扩增对单个基因组位点具有特异性,这对于理解异质性和致病变异突变的疾病阈值是非常重要的基础数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
BMC Biology
BMC Biology 生物-生物学
CiteScore
7.80
自引率
1.90%
发文量
260
审稿时长
3 months
期刊介绍: BMC Biology is a broad scope journal covering all areas of biology. Our content includes research articles, new methods and tools. BMC Biology also publishes reviews, Q&A, and commentaries.
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