Gene Coexpression Network Reveals Highly Conserved, Well-Regulated Anti-Ageing Mechanisms in Old Ant Queens

Harrison, Mark C.; Nino, Luisa Maria Jaimes; Rodrigues, Marisa A; Ryll, Judith; Flatt, Thomas; Oettler, Jan; Bornberg‐Bauer, Erich

doi:10.1093/gbe/evab093

Cited by 11 publications

(10 citation statements)

References 83 publications

(128 reference statements)

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“…We predict that the evolution of a constant or decreasing mortality curve, or longevity, should lead to increasing purifying selection on late-expressed genes, which should be measurable using standard transcriptome experiments. This has been exactly what Harrison and colleagues have observed: higher protein sequence conservation among old-biased genes in ant queens (Harrison et al, 2021). However, it remains possible that age-related changes in cell type composition (e.g.…”

Section: Discussionsupporting

confidence: 71%

Under the shadow: Old-biased genes are subject to weak purifying selection at both the tissue and cell type-specific levels

Yıldız

İzgi

Rahimova

et al. 2022

Preprint

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The mutation accumulation theory predicts that aging is caused by accumulation of late-acting deleterious variants in the germ-line, due to weak purifying selection at old age. In accordance with this model, we and others have shown that sequence conservation among old-biased genes (with higher expression in old versus young adults) is weaker than among young-biased genes across a number of mammalian and insect species. However, questions remained regarding the source and generality of this observation. It was especially unclear whether the observed patterns were driven by tissue and cell type composition shifts or by cell-autonomous expression changes during aging. How wide this trend would extend to non-mammalian metazoan aging was also uncertain. Here we analyzed bulk tissue as well as cell type-specific RNA sequencing data from diverse animal taxa across six different datasets from five species. We show that the previously reported age-related decrease in transcriptome conservation (ADICT) is commonly found in aging tissues of non-mammalian species, including non-mammalian vertebrates (chicken brain, killifish liver and skin) and invertebrates (fruit fly brain). Analyzing cell type-specific transcriptomes of adult mice, we further detect the same ADICT trend at the single cell type level. Old-biased genes are less conserved across the majority of cell types analyzed in the lung, brain, liver, muscle, kidney, and skin, and these include both tissue-specific cell types, and also ubiquitous immune cell types. Overall, our results support the notion that aging in metazoan tissues may be at least partly shaped by the mutation accumulation process.

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Section: Discussionsupporting

confidence: 71%

Under the shadow: Old-biased genes are subject to weak purifying selection at both the tissue and cell type-specific levels

Yıldız

İzgi

Rahimova

et al. 2022

Preprint

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“…Strikingly, a comparative transcriptomic study of 8-week young queens with fully mature C. obscurior queens at or close to their peak fecundity (18 weeks old) did not find signs indicative of aging, but in comparison to aged Drosophila flies an opposite regulation of processes (e.g., cellular ketone, carbohydrate, and organic acid metabolic processes) and genes (e.g., ref(2)P , emp , P5cr-2 , CCHa2 , NLaz , Sirt6 ) involved in aging ( von Wyschetzki et al, 2015 ). Furthermore, a gene co-expression network study using the same data showed higher connectivity in middle-aged queens, indicating increased transcriptional regulation with age ( Harrison et al, 2021 ). Together, this suggests that the physiology of queens is maintained until the fitness peak is reached, at which time they undergo physiological deterioration, while still being reproductively active.…”

Section: Discussionmentioning

confidence: 96%

Late-life fitness gains and reproductive death in Cardiocondyla obscurior ants

Nino

Heınze

Oettler

2022

eLife

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A key hypothesis for the occurrence of senescence is the decrease in selection strength due to the decrease in the proportion of newborns from parents attaining an advanced age – the so-called selection shadow. Strikingly, queens of social insects have long lifespans and reproductive senescence seems to be negligible. By lifelong tracking of 99 Cardiocondyla obscurior (Formicidae: Myrmicinae) ant colonies, we find that queens shift to the production of sexuals in late life regardless of their absolute lifespan or the number of workers present. Furthermore, RNAseq analyses of old queens past their peak of reproductive performance showed the development of massive pathology while queens were still fertile, leading to rapid death. We conclude that the evolution of superorganismality is accompanied by ‘continuusparity,’ a life history strategy that is distinct from other iteroparous and semelparous strategies across the tree of life, in that it combines continuous reproduction with a fitness peak late in life.

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“…Beside reproductive division of labour, the eusocial insects are also characterised by extreme longevity among fertile castes, indicating an apparent absence of the fecundity-longevity trade-off attributed to non-social insects (Korb et al, 2021). Several, recent studies have presented evidence for the transcriptional regulation of specific gene co-expression modules associated with old but highly fertile queens in ants (Harrison et al, 2021), bees (Séguret et al, 2021) and termites (Lin et al, 2021; Séité et al, 2022). However, the role of DNA methylation in this absence of the longevity-fecundity trade-off in eusocial insects is so far unknown.…”

Section: Introductionmentioning

confidence: 99%

Complex regulatory role of DNA methylation in caste- and age-specific expression of a termite

Harrison

Dohmen

George

et al. 2022

Preprint

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The reproductive castes of eusocial insects are often characterised by extreme lifespans and reproductive output, indicating an absence of the fecundity/longevity trade-off. The role of DNA methylation in the regulation of caste- and age-specific gene expression in eusocial insects is controversial. While some studies find a clear link to caste formation in honeybees and ants, others find no correlation when replication is increased across independent colonies. Although recent studies have identified transcription patterns involved in the maintenance of high reproduction throughout the long lives of queens, the role of DNA methylation in the regulation of these genes is unknown. We carried out a comparative analysis of DNA methylation in the regulation of caste-specific transcription and its importance for the regulation of fertility and longevity in queens of the higher termite, Macrotermes natalensis. We found evidence for significant, well-regulated changes in DNA methylation in mature compared to young queens, especially in several genes related to ageing and fecundity in mature queens. We also found a strong link between methylation and caste-specific alternative splicing. This study reveals a complex regulatory role of fat body DNA methylation both in the division of labour in termites, and during the reproductive maturation of queens.

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Gene Coexpression Network Reveals Highly Conserved, Well-Regulated Anti-Ageing Mechanisms in Old Ant Queens

Cited by 11 publications

References 83 publications

Under the shadow: Old-biased genes are subject to weak purifying selection at both the tissue and cell type-specific levels

Under the shadow: Old-biased genes are subject to weak purifying selection at both the tissue and cell type-specific levels

Late-life fitness gains and reproductive death in Cardiocondyla obscurior ants

Complex regulatory role of DNA methylation in caste- and age-specific expression of a termite

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