Quantitative Changes in <i>Gimap3</i> and <i>Gimap5</i> Expression Modify Mitochondrial DNA Segregation in Mice

Jokinen, Riikka; Lahtinen, Taina; Marttinen, Paula; Myöhänen, Maarit; Ruotsalainen, Pilvi; Yeung, Nicolas; Shvetsova, Antonina; Kastaniotis, Alexander J.; Hiltunen, J. Kalervo; Öhman, Tiina; Nyman, Tuula A.; Weiler, Hartmut; Battersby, Brendan J.

doi:10.1534/genetics.115.175596

Cited by 9 publications

(15 citation statements)

References 53 publications

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“…Mechanistic studies in vitro reveal that impairment of GIMAP5-deficient TH cell differentiation is associated with increased DNA damage, which could be controlled by TGF-βin GIMAP5-deficient CD4+ T cells to induce TH17 polarization [ 15 ]. Previous in vivo study showed that GIMAP3/5 modified mitochondrial DNA in a heteroplasmic mouse model [ 16 ], which was consistent with our findings that GIMAPs family members influenced DNA metabolism in either mitochondria or nucleus.…”

Section: Discussionsupporting

confidence: 93%

Systemic analyses of expression patterns and clinical features for GIMAPs family members in lung adenocarcinoma

Deng

Zhi

Lü

et al. 2020

aging

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GTPase of immunity-associated proteins (GIMAPs) are frequently prescribed as important components of immune regulation complexes, which were known to play key roles in lung adenocarcinoma. However, little is known about the function of distinct GIMAPs in lung adenocarcinoma. To address this issue, this study investigated the biological function and pathway of GIMAPs in lung adenocarcinoma using multiple public databases. Absent expression of GIMAPs was found in lung adenocarcinoma at mRNA and protein levels. While a purity-corrected value uncovered that all GIMAPs were positively associated with the immune infiltration of lung adenocarcinoma. Furthermore, the expressions of GIMAPs were considered to be negatively associated with clinical cancer stages, patient’s gender and pathological tumor grades in patients with lung adenocarcinoma. Besides, higher mRNA expression of GIMAPs was significantly associated with longer overall survival of patients with lung adenocarcinoma. Taken together, these results may enable GIMAPs family members as diagnostic and survival biomarker candidates or even potential therapeutic targets for patients with lung adenocarcinoma.

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Section: Discussionsupporting

confidence: 93%

Systemic analyses of expression patterns and clinical features for GIMAPs family members in lung adenocarcinoma

Deng

Zhi

Lü

et al. 2020

aging

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“…Among the 118 single mitochondrion samples from mice, there were on average 3.9 SNV sites per mitochondrion with a standard deviation of 5.71, indicating over-dispersion of SNV sites with some mitochondrion containing an unexpected high or low mutational load. Such over-dispersion might arise from preferential birth-death of certain multi-loci variant combinations leading to fitness effects (cf., Jokinen et al, 2015. ; Jenuth et al, 1997).…”

Section: Resultsmentioning

confidence: 99%

“…We note several complicating factors may influence our results including unusual cellular environment within in vitro cell cultures leading to de novo mutations as well as possible effects of somatic selection which may depend on variation at other genomic loci or tissue specific selection (e.g., Jokinen et al, 2015; Jenuth et al, 1997). Unusual environment leading to mutations can influence the total number of SNV loci but we believe it unlikely to lead to SNVs shared in multiple samples as those described in Table 1.…”

Section: Discussionmentioning

confidence: 99%

Pervasive within-Mitochondrion Single-Nucleotide Variant Heteroplasmy as Revealed by Single-Mitochondrion Sequencing

Morris

Zhu

et al. 2017

Cell Reports

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Summary A number of mitochondrial diseases arise from Single Nucleotide Variant (SNV) accumulation in multiple mitochondria. Here we present a method for identification of variants present at the single mitochondrion level in individual mouse and human neuronal cells allowing for extremely high resolution study of mitochondrial mutation dynamics. We identified extensive heteroplasmy between individual mitochondrion, along with three high confidence variants in mouse and one in human that were present in multiple mitochondria across cells. The pattern of variation revealed by single mitochondrion data shows surprisingly pervasive levels of heteroplasmy in inbred mice. Distribution of SNV loci suggests inheritance of variants across generations resulting in Poisson jackpot lines with large SNV load. Comparison of human and mouse variants suggests that the two species might employ distinct modes of somatic segregation. Single mitochondrion resolution revealed mitochondria mutational dynamics that we hypothesize to affect risk probabilities for mutations reaching disease thresholds.

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“…In the same NZB/BALBc model, Jokinen et al . () studied the preferential selection for BALBc mtDNA in hematopoietic cells and found that the tail‐anchored, ER‐resident GTPases Gimap3 and Gimap5 play a critical role in mtDNA segregation, suggesting that coordination of organelle interactions may be involved in modulating mtDNA segregation and selection.…”

Section: Proposed Mechanisms By Which Purifying Selection May Occurmentioning

confidence: 99%

Mitochondrial DNA Heteroplasmy and Purifying Selection in the Mammalian Female Germ Line

2018

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Inherited mutations in the mitochondrial (mt)DNA are a major cause of human disease, with approximately 1 in 5000 people affected by one of the hundreds of identified pathogenic mtDNA point mutations or deletions. Due to the severe, and often untreatable, symptoms of many mitochondrial diseases, identifying how these mutations are inherited from one generation to the next has been an area of intense research in recent years. Despite large advances in our understanding of this complex process, many questions remain unanswered, with one of the most hotly debated being whether or not purifying selection acts against pathogenic mutations during germline development.

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Quantitative Changes in Gimap3 and Gimap5 Expression Modify Mitochondrial DNA Segregation in Mice

Cited by 9 publications

References 53 publications

Systemic analyses of expression patterns and clinical features for GIMAPs family members in lung adenocarcinoma

Systemic analyses of expression patterns and clinical features for GIMAPs family members in lung adenocarcinoma

Pervasive within-Mitochondrion Single-Nucleotide Variant Heteroplasmy as Revealed by Single-Mitochondrion Sequencing

Mitochondrial DNA Heteroplasmy and Purifying Selection in the Mammalian Female Germ Line

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