Mitochondrial DNA 7908–8816 region mutations in maternally inherited essential hypertensive subjects in China

Zhu, Ye; Gu, Xianglin; Xu, Chao

doi:10.1186/s12920-018-0408-0

Cited by 15 publications

(13 citation statements)

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“…A cumulative total of 4,325 NEMP variants and 28 mitochondrial variants passed the nominal threshold of significance (P unadjusted <0.05) for all tests. A solar plot showing the clustering of mitochondrial genomic variants for each trait is shown in Fig 1 (23)(23)(33). The exonic variants passing the nominal threshold from the mitochondrial association results are summarised in Table 3 .…”

Section: Resultsmentioning

confidence: 99%

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Identification of novel mitochondrial and mitochondrial related genetic loci associated with exercise response in the Gene SMART study

Harvey

Voisin

Lea

et al. 2020

Preprint

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20Mitochondria supply intracellular energy requirements during exercise. Specific mitochondrial haplogroups and 21 mitochondrial genetic variants have been associated with athletic performance, and exercise responses. However, 22 these associations were discovered using underpowered, candidate gene approaches, and consequently have not 23 been replicated. Here, we used whole-mitochondrial genome sequencing, in conjunction with high-throughput 24 genotyping arrays, to discover novel genetic variants associated with exercise responses in the Gene SMART 25(Skeletal Muscle Adaptive Response to Training) cohort (n=62 completed). We performed a Principal Component 26 Analysis of cohort aerobic fitness measures to build composite traits and test for variants associated with exercise 27 outcomes. None of the mitochondrial genetic variants but nine nuclear encoded variants in eight separate genes 28 were found to be associated with exercise responses (FDR<0.05) (rs11061368: DIABLO, rs113400963: 29 FAM185A, rs6062129 and rs6121949: MTG2, rs7231304: AFG3L2, rs2041840: NDUFAF7, rs7085433: 30 TIMM23, rs1063271: SPTLC2, rs2275273: ALDH18A1). Additionally, we outline potential mechanisms by 31 which these variants may be contributing to exercise phenotypes. Our data suggest novel nuclear-encoded SNPs 32 and mitochondrial pathways associated with exercise response phenotypes. Future studies should focus on 33 validating these variants across different cohorts and ethnicities. 34 35 AUTHOR SUMMARY 36Previous exercise genetic studies contain many flaws that impede the growth in knowledge surrounding change 37 in exercise outcomes. In particular, exercise studies looking at mtDNA variants have looked at very small portions 38 of the mitochondrial genome. Mitochondria are the 'power house' of the cell and therefore understanding the 39 mitochondrial genetics behind adaptations to training can help us fill knowledge gaps in current research. Here, 40we utilised a new mitochondrial genetic sequencing technique to examine all mitochondrial and mitochondrial 41 related genetic variations. We have shown that there were no mitochondrial specific variants that influenced 42 exercise training however there were 9 related variants that were significantly associated with exercise 43 phenotypes. Additionally, we have shown that building composite traits increased the significance of our 44 association testing and lead to novel findings. We will be able to understand why response to training is so varied 45 and increase the effectiveness of exercise training on a host of metabolic disorders. 48Responses to exercise training depends on the type of exercise stimulus, and varies considerably between 49 individuals (1-3). This variability is tissue-specific, and may be explained by a combination of genetic variants, 50 epigenetic signatures, other molecular and lifestyle factors (4, 5). Mitochondria are the key mediators of 51 intracellular energy and are involved in many essential cell metabolism and homeostasis processes (6) with 52 exercise trai...

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Section: Resultsmentioning

confidence: 99%

“…The g.A8701G variant within the ATP6 gene causes a missense change within its respective protein (p.Thr59Ala) and has been well characterised in hypertensive cases (33). This variant was nominally significant in both the Δ-LT phenotype and the PC3 composite trait within the cohort.…”

Section: Discussionmentioning

confidence: 99%

Identification of novel mitochondrial and mitochondrial related genetic loci associated with exercise response in the Gene SMART study

Harvey

Voisin

Lea

et al. 2020

Preprint

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“…Although many studies revealed the genetics of mitochondrial disorders, the molecular mechanism underlying hypertension remains unclear (22,23). Experimental studies identified a positive association between mtDNA mutations and hypertension (24,25). In particular, Watson et al (26) reported a double ND3 10398A>G Ddel CO1 HaeIII 6620T>C or 6260G>A mutation in hypertensive African-Americans with end-stage renal disease.…”

Section: Discussionmentioning

confidence: 99%

The mitochondrial tRNAAla 5587T>C and tRNALeu(CUN) 12280A>G mutations may be associated with hypertension in a Chinese family

et al. 2018

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Hypertension is a very common cardiovascular disorder, however, the molecular mechanism underlying this disease remains poorly understood. Recently, an increasing number of studies have demonstrated that mitochondrial (mt)DNA mutations serve important roles in the pathogenesis of hypertension. The current study reported the clinical and molecular characterization of a Chinese family with maternally inherited hypertension (the penetrance of hypertension was 71.4%). In addition, the entire mitochondrial transfer (mt-t)RNA genomes was amplified using a polymerase chain reaction (PCR) and identified through direct Sanger sequencing. Additionally, the mtDNA copy number in matrilineal relatives in this family was evaluated using quantitative PCR. The sequence analysis of the 22 mt-tRNA genes led to the identification of tRNA Ala 5587T>C (thymine to cytosine) and tRNA Leu(CUN) 12280A>G (adenine to guanine) mutations. Notably, the heteroplasmic 5587T>C mutation was located at the 3' end of tRNA Ala (position 73), which is highly conserved from bacteria to human mitochondria. In addition, the 12280A>G mutation was revealed to occurs at the dihydrouridine loop of tRNA Leu(CUN) (position 15) and may decrease the steady-state level of mt-tRNA. As a result, 5587T>C and 12280A>G mutations may lead to the failure of tRNAs metabolism and subsequently cause mitochondrial protein synthesis defects. Molecular analysis revealed that patients carrying the 5587T>C and 12280A>G mutations had a lower copy number of mtDNA compared with a control with hypertension, but without the mutations, suggesting that these mutations may cause mitochondrial dysfunctions that are responsible for hypertension. Therefore, mt-tRNA Ala 5587T>C and tRNA Leu(CUN) 12280A>G mutations may be involved in the pathogenesis of hypertension in this family.

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“…PCR cycle program was carried out in a 9700 Thermocycler (Perkin-Elmer Applied Biosystems, Norwalk, USA). Each fragment had been purified and sequenced by ABI 3730 Sequence Analysis software (Applied Biosystems, Inc., Foster City, CA, USA) using the BigDye Terminator v1.1 kit (ABI Company, Carlsbad, CA, USA), and subsequently SeqWeb program GAP(GCG) was analyzed and compared with the updated consensus Cambridge Sequence [17,18]. Pathogenic variants were identified from the mitochondrial map (http://www.mitomap.org/) [19].…”

Section: Mitochondrial Dna Analysismentioning

confidence: 99%

Associations of Mitochondrial DNA 3777-4679 region mutations with maternally inherited essential hypertensive subjects in China.

Zhu

You

et al. 2020

Preprint

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Background: Nuclear genome or family mitochondrial screening system has become the hot focus of studies into essential hypertension. The role of mitochondrial DNA (mtDNA) in sporadic Chinese patients with hypertension has not been fully understood. The study was to evaluate the associations of mtDNA mutations with maternally inherited essential hypertensive subjects in China.Methods: From June 2009 to June 2016, a total of 800 gender-matched Chinese patients with maternally inherited essential hypertension (MIEH) and control group were 1:1 enrolled in this case-control study. Genomic DNA was extracted from each person's peripheral blood cells. The main mtDNA locations for MIEH were screened with oligodeoxynucleotides 3777-4679bp, analyzed and compared with the updated consensus Cambridge Sequence. Pathogenic mtDNA mutations were identified from the mitochondrial map.Results: MIEH subjects presented significantly higher values than those of control group in abdominal circumference(AC), waist circumference(WC), body mass index(BMI), fasting blood glucose(FBG), triglyceride(TG), low-density lipoprotein cholesterol (LDL) and renal function (P<0.05). MIEH subjects carried more amino acid changes and coding sequence variants (P<0.01) than control group. The allele frequencies of the eight single nucleotide polymorphisms(SNPs) were significantly different between the two groups, including m.3970 C>T, m.4048G>A, m.4071C>T, m.4086C>T, m. 4164A>G and m.4248T>C in ND1 gene, and m.4386T>C and m.4394C>T in tRNAGln gene(P<0.001). Fifty-five homoplasmic or heteroplasmic mutations were detected in 5 genes: ND1, tRNAIle, tRNAMet, tRNAGln and ND2 gene. The ND1 gene was the main mutation site, where the most mtDNA mutation was m.3970 C>T.Conclusions: The mtDNA mutations were involved in the process of MIEH. We identified mitochondrial genetic characteristics in MIEH patients in China. The present research serves as a solid foundation for further detailed research on the association between MIEH and mitochondrial dysfunction, and their causal relationship in Chinese and other populations with a similar lifestyle.

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Mitochondrial DNA 7908–8816 region mutations in maternally inherited essential hypertensive subjects in China

Cited by 15 publications

References 44 publications

Identification of novel mitochondrial and mitochondrial related genetic loci associated with exercise response in the Gene SMART study

Identification of novel mitochondrial and mitochondrial related genetic loci associated with exercise response in the Gene SMART study

The mitochondrial tRNAAla 5587T>C and tRNALeu(CUN) 12280A>G mutations may be associated with hypertension in a Chinese family

Associations of Mitochondrial DNA 3777-4679 region mutations with maternally inherited essential hypertensive subjects in China.

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