Caroline Granycome scite author profile

Many copies of mammalian mitochondrial DNA contain a short triple-stranded region, or displacement loop (D-loop), in the major noncoding region. In the 35 years since their discovery, no function has been assigned to mitochondrial D-loops. We purified mitochondrial nucleoprotein complexes from rat liver and identified a previously uncharacterized protein, ATAD3p. Localization studies suggested that human ATAD3 is a component of many, but not all, mitochondrial nucleoids. Gene silencing of ATAD3 by RNA interference altered the structure of mitochondrial nucleoids and led to the dissociation of mitochondrial DNA fragments held together by protein, specifically, ones containing the D-loop region. In vitro, a recombinant fragment of ATAD3p bound to supercoiled DNA molecules that contained a synthetic D-loop, with a marked preference over partially relaxed molecules with a D-loop or supercoiled DNA circles. These results suggest that mitochondrial D-loops serve to recruit ATAD3p for the purpose of forming or segregating mitochondrial nucleoids.

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Mitochondrial RNA Polymerase Is Needed for Activation of the Origin of Light-Strand DNA Replication

Fusté

et al. 2010

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Mitochondrial DNA is replicated by a unique enzymatic machinery, which is distinct from the replication apparatus used for copying the nuclear genome. We examine here the mechanisms of origin-specific initiation of lagging-strand DNA synthesis in human mitochondria. We demonstrate that the mitochondrial RNA polymerase (POLRMT) is the primase required for initiation of DNA synthesis from the light-strand origin of DNA replication (OriL). Using only purified POLRMT and DNA replication factors, we can faithfully reconstitute OriL-dependent initiation in vitro. Leading-strand DNA synthesis is initiated from the heavy-strand origin of DNA replication and passes OriL. The single-stranded OriL is exposed and adopts a stem-loop structure. At this stage, POLRMT initiates primer synthesis from a poly-dT stretch in the single-stranded loop region. After about 25 nt, POLRMT is replaced by DNA polymerase gamma, and DNA synthesis commences. Our findings demonstrate that POLRMT can function as an origin-specific primase in mammalian mitochondria.

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Twinkle helicase is essential for mtDNA maintenance and regulates mtDNA copy number

Sembongi²,

et al. 2004

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Mechanisms of mitochondrial DNA (mtDNA) maintenance have recently gained wide interest owing to their role in inherited diseases as well as in aging. Twinkle is a new mitochondrial 5'-3' DNA helicase, defects of which we have previously shown to underlie a mitochondrial disease, progressive external ophthalmoplegia with multiple mtDNA deletions. Mouse Twinkle is highly similar to the human counterpart, suggesting conserved function. Here, we have characterized the mouse Twinkle gene and expression profile and report that the expression patterns are not conserved between human and mouse, but are synchronized with the adjacent gene MrpL43, suggesting a shared promoter. To elucidate the in vivo role of Twinkle in mtDNA maintenance, we generated two transgenic mouse lines overexpressing wild-type Twinkle. We could demonstrate for the first time that increased expression of Twinkle in muscle and heart increases mtDNA copy number up to 3-fold higher than controls, more than any other factor reported to date. Additionally, we utilized cultured human cells and observed that reduced expression of Twinkle by RNA interference mediated a rapid drop in mtDNA copy number, further supporting the in vivo results. These data demonstrate that Twinkle helicase is essential for mtDNA maintenance, and that it may be a key regulator of mtDNA copy number in mammals.

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The Novel Nucleoside Analog R1479 (4′-Azidocytidine) Is a Potent Inhibitor of NS5B-dependent RNA Synthesis and Hepatitis C Virus Replication in Cell Culture

Klumpp

Lévêque

Pogam

et al. 2006

Journal of Biological Chemistry

203

180

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Hepatitis C virus (HCV) polymerase activity is essential for HCV replication. Targeted screening of nucleoside analogs identified R1479 (4-azidocytidine) as a specific inhibitor of HCV replication in the HCV subgenomic replicon system (IC 50 ‫؍‬ 1.28 M) with similar potency compared with 2-C-methylcytidine (IC 50 ‫؍‬ 1.13 M). R1479 showed no effect on cell viability or proliferation of HCV replicon or Huh-7 cells at concentrations up to 2 mM. HCV replicon RNA could be fully cleared from replicon cells after prolonged incubation with R1479. The corresponding 5-triphosphate derivative (R1479-TP) is a potent inhibitor of native HCV replicase isolated from replicon cells and of recombinant HCV polymerase (NS5B)-mediated RNA synthesis activity. R1479-TP inhibited RNA synthesis as a CTP-competitive inhibitor with a K i of 40 nM. On an HCV RNA-derived template substrate (complementary internal ribosome entry site), R1479-TP showed similar potency of NS5B inhibition compared with 3-dCTP. R1479-TP was incorporated into nascent RNA by HCV polymerase and reduced further elongation with similar efficiency compared with 3-dCTP under the reaction conditions. The S282T point mutation in the coding sequence of NS5B confers resistance to inhibition by 2-C-MeATP and other 2-methyl-nucleotides. In contrast, the S282T mutation did not confer cross-resistance to R1479. Hepatitis C virus (HCV)2 infection is a major cause of chronic liver disease, cirrhosis, and hepatocellular carcinoma and is currently the leading cause of liver transplantation (1, 2). Viral genome sequence analysis established six HCV genotype classes (HCV genotypes 1-6), with genotypes 1-3 being the most prevalent in the United States, Europe, and Japan. Current treatment options available to HCV-infected persons are limited, and sustained virological response rates are particularly low for HCV genotype 1-infected patients. Only ϳ50% of individuals infected with HCV genotype 1 with serum viral titers of Ͼ2 ϫ 10 6 copies/ml achieved sustained virological response rates when treated with a combination of pegylated interferon-␣ and ribavirin (3, 4). Response rates are even lower in persons with HIV co-infection or cirrhosis and also decrease with age (1, 5-7). Urgently required improvements in anti-HCV therapy will depend on the development of novel therapeutic approaches, especially in difficult to treat populations.HCV is an enveloped (ϩ)-strand RNA virus that enters host cells via receptor-mediated endocytosis and replicates in the host cell cytoplasm. A membrane-associated replicase complex containing HCV genome-encoded nonstructural proteins and HCV genomic RNA in a tight complex is responsible for the formation of viral RNA for packaging into new virus particles during the HCV replication process. The viral NS5B protein contains the HCV polymerase active site within the replicase complex, an RNA-dependent RNA polymerase. The concept of polymerase inhibition to attain antiviral efficacy has been successfully established in other viral infections (human immunodefi...

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