Mitochondrial DNA copy number and function decrease with age in the short‐lived fish <i>Nothobranchius furzeri</i>

Hartmann, Nils; Reichwald, Kathrin; Wittig, Ilka; Dröse, Stefan; Schmeisser, Sebastian; Lück, Claudia; Hahn, Christin; Graf, M.; Gausmann, Ulrike; Terzibasi, Eva; Cellerino, Alessandro; Ristow, Michael; Brandt, Ulrich; Platzer, Matthias; Englert, Christoph

doi:10.1111/j.1474-9726.2011.00723.x

Cited by 126 publications

(110 citation statements)

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“…Aging in the turquoise killifish has been extensively characterized at both the phenotypical and molecular level in both the GRZ strain and other strains such as MZM0403 and 0410 (Baumgart et al., 2012, 2014; Di Cicco, Tozzini, Rossi & Cellerino, 2011; Hartmann et al., 2009, 2011; Priami et al., 2015; Terzibasi Tozzini et al., 2014; Terzibasi et al., 2008; Tozzini, Baumgart, Battistoni & Cellerino, 2012). Indeed, despite their short lifespan compared to other vertebrates, various strains of the turquoise killifish recapitulate numerous stereotypical aging traits that have been reported in other vertebrates (Figure 5), including decline in reproduction, fertility, cognition, mobility, regeneration, and tissue homeostasis, along with increased incidence of senescence, neural and muscular degeneration, and cancerous lesions (Di Cicco et al., 2011; Terzibasi, Valenzano & Cellerino, 2007; Terzibasi et al., 2008; Valenzano, Terzibasi, Cattaneo, Domenici & Cellerino, 2006; Wendler, Hartmann, Hoppe & Englert, 2015).…”

Section: The African Turquoise Killifish Lifecycle Is Composed Of Twomentioning

confidence: 99%

“…Importantly, the turquoise killifish does not die of just one disease, but appears to have multiple causes of death in old age, indicating that its lifespan is truly compressed rather than limited by a specific disease. Old turquoise killifish also exhibit molecular markers of aging, such as a decrease in mitochondrial DNA copy number and telomere length with age (Hartmann et al., 2009, 2011). Finally, environmental stimuli known to impact lifespan in other species (e.g., dietary restriction) also extend the lifespan of the turquoise killifish (Terzibasi et al., 2009).…”

Section: The African Turquoise Killifish Lifecycle Is Composed Of Twomentioning

confidence: 99%

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The African turquoise killifish: A research organism to study vertebrate aging and diapause

Brunet²

2018

Aging Cell

135

118

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SummaryThe African turquoise killifish has recently gained significant traction as a new research organism in the aging field. Our understanding of aging has strongly benefited from canonical research organisms—yeast, C. elegans, Drosophila, zebrafish, and mice. Many characteristics that are essential to understand aging—for example, the adaptive immune system or the hypothalamo‐pituitary axis—are only present in vertebrates (zebrafish and mice). However, zebrafish and mice live more than 3 years and their relatively long lifespans are not compatible with high‐throughput studies. Therefore, the turquoise killifish, a vertebrate with a naturally compressed lifespan of only 4–6 months, fills an essential gap to understand aging. With a recently developed genomic and genetic toolkit, the turquoise killifish not only provides practical advantages for lifespan and longitudinal experiments, but also allows more systematic characterizations of the interplay between genetics and environment during vertebrate aging. Interestingly, the turquoise killifish can also enter a long‐term dormant state during development called diapause. Killifish embryos in diapause already have some organs and tissues, and they can last in this state for years, exhibiting exceptional resistance to stress and to damages due to the passage of time. Understanding the diapause state could give new insights into strategies to prevent the damage caused by aging and to better preserve organs, tissues, and cells. Thus, the African turquoise killifish brings two interesting aspects to the aging field—a compressed lifespan and a long‐term resistant diapause state, both of which should spark new discoveries in the field.

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Section: The African Turquoise Killifish Lifecycle Is Composed Of Twomentioning

confidence: 99%

Section: The African Turquoise Killifish Lifecycle Is Composed Of Twomentioning

confidence: 99%

The African turquoise killifish: A research organism to study vertebrate aging and diapause

Brunet²

2018

Aging Cell

135

118

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“…Nothobranchius furzeri is the shortest-lived vertebrate that can be cultured in captivity with a life span of 3-7 months depending on the genetic background of the different strains (Terzibasi et al 2008;Valdesalici and Cellerino 2003) and has emerged in the last decade as new animal model for ageing studies because it expresses a series of typical ageing phenotypes (Genade et al 2005;Hartmann et al 2009Hartmann et al , 2011Tozzini et al 2012;Valenzano et al 2006) and also shows high incidence of age dependent neoplasias (Di Cicco et al 2011). Several other species of Nothobranchius were studied in the context of ageing, such as N. guentheri (Cooper et al 1983;Genade and Lang 2013;Liu et al 2012) N. korthause (Lucas-Sanchez et al 2011 and N. rachovii (Herrera and Jagadeeswaran 2004;Hsu and Chiu 2009;Hsu et al 2008;Lucas-Sanchez et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Comparison of captive lifespan, age-associated liver neoplasias and age-dependent gene expression between two annual fish species: Nothobranchius furzeri and Nothobranchius korthause

et al. 2014

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Nothobranchius is a genus of annual fish broadly distributed in South-Eastern Africa and found into temporary ponds generated during the rain seasons and their lifespan is limited by the duration of their habitats. Here we compared two Nothobranchius species from radically different environments: N. furzeri and N. korthausae. We found a large difference in life expectancy (29- against 71-weeks of median life span, 40- against 80-weeks of maximum lifespan, respectively), which correlates with a diverse timing in the onset of several age dependent processes: our data show that N. korthause longer lifespan is associated to retarded onset of age-dependent liver-neoplasia and slower down-regulation of collagen 1 alpha 2 (COL1A2) expression in the skin. On the other hand, the expression of cyclin B1 (CCNB1) in the brain was strongly age-regulated, but with similar profiles in N. furzeri and N. korthausae. In conclusion, our data suggest that the different ageing rate of two species of the same genus could be used as novel tool to investigate and better understand the genetic bases of some general mechanism leading to the complex ageing process, providing a strategy to unravel some of the genetic mechanisms regulating longevity and age-associate pathologies including neoplasias.

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“…Another characteristic of N. furzeri is that the short lifespan has been associated with rapid aging as shown by an early onset of aging biomarkers, a decline in learning and behavioral capabilities, age-related telomere shortening and an age-related impairment of mitochondrial function (Terzibasi et al, 2008;Hartmann et al, 2009Hartmann et al, , 2011. Further genetic studies in N. furzeri will benefit from completion of the genome and transcriptome project, which are under way Valenzano et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

A microinjection protocol for the generation of transgenic killifish (Species: Nothobranchius furzeri)

Hartmann

Englert

2012

Developmental Dynamics

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Background: A challenge in age research is the absence of short-lived vertebrate model organisms. The turquoise killifish Nothobranchius furzeri has an exceptionally short lifespan of 4-10 months depending on the strain. Thus, it possesses the shortest known maximum lifespan of a vertebrate species that can be bred in captivity. Results: Here we show the successful introduction of DNA and RNA molecules into the one-cell embryo of N. furzeri. For this purpose, we adapted existing microinjection protocols to inject through the remarkably thick and robust chorion of N. furzeri's eggs. The injected DNA transgene was integrated into the genome and transmitted to subsequent generations as indicated by the expression of the fluorophore enhanced green fluorescent protein (EGFP). Furthermore, we could confirm a special phase during embryonic development in which embryogenesis occurs within a re-aggregated mass of previously dispersed cells as it has been described for other related cyprinodont fish species. Conclusions: The transgenesis protocol described here provides a basis for a variety of genetic manipulations including overexpression of genes and determining their effects on lifespan and longevity. The feasibility to perform transgenesis is an important step to establish N. furzeri as a new model in age research.

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Mitochondrial DNA copy number and function decrease with age in the short‐lived fish Nothobranchius furzeri

Cited by 126 publications

References 45 publications

The African turquoise killifish: A research organism to study vertebrate aging and diapause

The African turquoise killifish: A research organism to study vertebrate aging and diapause

Comparison of captive lifespan, age-associated liver neoplasias and age-dependent gene expression between two annual fish species: Nothobranchius furzeri and Nothobranchius korthause

A microinjection protocol for the generation of transgenic killifish (Species: Nothobranchius furzeri)

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