Brooke E Hjelm, Christian Ramiro, Brandi L Rollins, Audrey A Omidsalar, Daniel S Gerke, Sujan C Das, Adolfo Sequeira, Ling Morgan, Alan F Schatzberg, Jack D Barchas, Francis S Lee, Richard M Myers, Stanley J Watson, Huda Akil, William E Bunney, Marquis P Vawter
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A conservative <i>p</i> value threshold of 5E-08 was used to find the significant loci.</p><p><strong>Results: </strong>One mtDNA SNP (T14798C) was significantly associated with mtDNA deletions in two brain regions, the dorsolateral prefrontal cortex (DLPFC) and the superior temporal gyrus. Since the DLPFC showed the most robust association between T14798C and two deletion breakpoints (7816-14807 and 5462-14807), this association was tested in the DLPFC of a replication sample and validated the first results. Incorporating the C allele at 14,798 bp increased the perfect/imperfect length of the repeat at the 3' breakpoint of the two associated deletions.</p><p><strong>Conclusion: </strong>This is the first study to identify the association of mtDNA SNP with large mtDNA deletions in the human brain. The T14798C allele located in the <i>MT-CYB</i> gene is a common polymorphism that occurs in several mitochondrial haplogroups. We hypothesize that the T14798C association with two deletions occurs by extending the repeat length around the 3' deletion breakpoints. This simple mechanism suggests that mtDNA SNPs can affect the mitochondrial genome structure, especially in brain where high levels of reactive oxygen species lead to deletion accumulation with aging.</p>","PeriodicalId":72654,"journal":{"name":"Complex psychiatry","volume":"8 3-4","pages":"90-98"},"PeriodicalIF":0.0000,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://ftp.ncbi.nlm.nih.gov/pub/pmc/oa_pdf/a8/f0/cxp-0008-0090.PMC9909249.pdf","citationCount":"0","resultStr":"{\"title\":\"Large Common Mitochondrial DNA Deletions Are Associated with a Mitochondrial SNP T14798C Near the 3' Breakpoints.\",\"authors\":\"Brooke E Hjelm, Christian Ramiro, Brandi L Rollins, Audrey A Omidsalar, Daniel S Gerke, Sujan C Das, Adolfo Sequeira, Ling Morgan, Alan F Schatzberg, Jack D Barchas, Francis S Lee, Richard M Myers, Stanley J Watson, Huda Akil, William E Bunney, Marquis P Vawter\",\"doi\":\"10.1159/000528051\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Introduction: </strong>Large somatic deletions of mitochondrial DNA (mtDNA) accumulate with aging in metabolically active tissues such as the brain. 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引用次数: 0
摘要
导言:线粒体DNA (mtDNA)的大量体细胞缺失随着代谢活跃组织(如大脑)的衰老而积累。我们已经将人类大脑中大型mtDNA缺失的断点和频率编目。方法:我们利用Splice-Break2管道对人类大脑4个区域的112个高频mtDNA体细胞缺失进行了量化。此外,我们利用PLINK/Seq测试了线粒体基因型与这些高频mtDNA缺失丰度的关联。使用保守的p值阈值5E-08来寻找显著位点。结果:一个mtDNA SNP (T14798C)与两个脑区,背外侧前额叶皮层(DLPFC)和颞上回的mtDNA缺失显著相关。由于DLPFC显示T14798C与两个删除断点(7816-14807和5462-14807)之间存在最强大的关联,因此在复制样本的DLPFC中测试了这种关联,并验证了第一个结果。在14,798 bp处加入C等位基因增加了两个相关缺失的3'断点处的完美/不完美重复长度。结论:这是首次在人脑中发现mtDNA SNP与mtDNA大缺失的关联。位于MT-CYB基因中的T14798C等位基因是一种常见的多态性,存在于几个线粒体单倍群中。我们假设T14798C与两个缺失的关联是通过延长3'缺失断点周围的重复长度发生的。这个简单的机制表明,mtDNA snp可以影响线粒体基因组结构,特别是在大脑中,随着年龄的增长,高水平的活性氧导致缺失积累。
Large Common Mitochondrial DNA Deletions Are Associated with a Mitochondrial SNP T14798C Near the 3' Breakpoints.
Introduction: Large somatic deletions of mitochondrial DNA (mtDNA) accumulate with aging in metabolically active tissues such as the brain. We have cataloged the breakpoints and frequencies of large mtDNA deletions in the human brain.
Methods: We quantified 112 high-frequency mtDNA somatic deletions across four human brain regions with the Splice-Break2 pipeline. In addition, we utilized PLINK/Seq to test the association of mitochondrial genotypes with the abundance of these high-frequency mtDNA deletions. A conservative p value threshold of 5E-08 was used to find the significant loci.
Results: One mtDNA SNP (T14798C) was significantly associated with mtDNA deletions in two brain regions, the dorsolateral prefrontal cortex (DLPFC) and the superior temporal gyrus. Since the DLPFC showed the most robust association between T14798C and two deletion breakpoints (7816-14807 and 5462-14807), this association was tested in the DLPFC of a replication sample and validated the first results. Incorporating the C allele at 14,798 bp increased the perfect/imperfect length of the repeat at the 3' breakpoint of the two associated deletions.
Conclusion: This is the first study to identify the association of mtDNA SNP with large mtDNA deletions in the human brain. The T14798C allele located in the MT-CYB gene is a common polymorphism that occurs in several mitochondrial haplogroups. We hypothesize that the T14798C association with two deletions occurs by extending the repeat length around the 3' deletion breakpoints. This simple mechanism suggests that mtDNA SNPs can affect the mitochondrial genome structure, especially in brain where high levels of reactive oxygen species lead to deletion accumulation with aging.
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