Chromatin remodeling in the aging genome of Drosophila

Wood, Jason G.; Hillenmeyer, Sara; Lawrence, Charles E.; Chang, Chieh-Ming J.; Hosier, Suzanne; Lightfoot, Will; Mukherjee, Eric M.; Jiang, Nan; Schorl, Christoph; Brodsky, Alexander S.; Neretti, Nicola; Helfand, Stephen L.

doi:10.1111/j.1474-9726.2010.00624.x

Cited by 169 publications

(149 citation statements)

References 32 publications

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“…A similar decrease in histone expression was also reported in human fibroblasts in culture (Dang et al 2009). A more recent study reports a significant age-associated decrease in the expression of H3K9me3 in drosophila (Wood et al 2010). In contrast, decreased heterochromatin-specific H3K9me3 due to reduced expression of the recruiting protein HP1 has been reported in aged humans (Scaffidi and Misteli 2006).…”

Section: Introductionmentioning

confidence: 96%

Impaired secretion of interferons by dendritic cells from aged subjects to influenza

Prakash

Agrawal

Cao

et al. 2012

AGE

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Increased susceptibility to respiratory infections such as influenza is the hallmark of advancing age. The mechanisms underlying the impaired immune response to influenza are not well understood. In the present study, we have investigated the effect of advancing age on dendritic cell (DC) function because they are critical in generating robust antiviral responses. Our results indicate that monocyte derived DCs from the aged are impaired in their capacity to secrete interferon (IFN)-I in response to influenza virus. Additionally, we observed a severe reduction in the production of IFN-III, which plays an important role in defense against viral infections at respiratory mucosal surfaces. This reduction in IFN-I and IFN-III were a result of age-associated modifications in the chromatin structure. Investigations using chromatin immunoprecipitation with H3K4me3 and H3K9me3 antibodies revealed that there is increased association of IFN-I and IFN-III promoters with the repressor histone, H3K9me3 in non-stimulated aged DCs compared to young DCs. This was accompanied by decreased association of these promoters with activator histone, H3K4me3 in aged DCs after activation with influenza. In contrast to interferons, the association of TNF-alpha promoter with both these histones was comparable between aged and young subjects. Investigations at 48 h suggested that these changes are not stable and change with time. In summary, our study demonstrates that myeloid DCs from aged subjects are impaired in their capacity to produce IFNs in response to influenza virus and that age-associated altered histone expression patterns are responsible for the decrease in IFN production.

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Section: Introductionmentioning

confidence: 96%

Impaired secretion of interferons by dendritic cells from aged subjects to influenza

Prakash

Agrawal

Cao

et al. 2012

AGE

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“…Moreover by modulating the expression of HP1, a protein required for the maintenance of heterochromatin, researchers have shown that increase or decrease HP1 levels leads to lifespan extension or shortening, respectively, in Drosophila (Larson et al ., 2012). Consistently, old Drosophila exhibits both HP1 reduction and the reduction of pericentric heterochromatin as judged by a decrease in H3K9me3 modification (Wood et al ., 2010; Larson et al ., 2012; Chen et al ., 2014). …”

Section: Introductionmentioning

confidence: 99%

Age‐associated de‐repression of retrotransposons in the Drosophila fat body, its potential cause and consequence

et al. 2016

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SummaryEukaryotic genomes contain transposable elements (TE) that can move into new locations upon activation. Since uncontrolled transposition of TEs, including the retrotransposons and DNA transposons, can lead to DNA breaks and genomic instability, multiple mechanisms, including heterochromatin‐mediated repression, have evolved to repress TE activation. Studies in model organisms have shown that TEs become activated upon aging as a result of age‐associated deregulation of heterochromatin. Considering that different organisms or cell types may undergo distinct heterochromatin changes upon aging, it is important to identify pathways that lead to TE activation in specific tissues and cell types. Through deep sequencing of isolated RNAs, we report an increased expression of many retrotransposons in the old Drosophila fat body, an organ equivalent to the mammalian liver and adipose tissue. This de‐repression correlates with an increased number of DNA damage foci and decreased level of Drosophila lamin‐B in the old fat body cells. Depletion of the Drosophila lamin‐B in the young or larval fat body results in a reduction of heterochromatin and a corresponding increase in retrotransposon expression and DNA damage. Further manipulations of lamin‐B and retrotransposon expression suggest a role of the nuclear lamina in maintaining the genome integrity of the Drosophila fat body by repressing retrotransposons.

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“…To test whether H3K36me3 marks negatively associate with mRNA expression change during aging in different species, we examined H3K36me3 ChIP-chip data and RNA-seq data from young (10 d) and old (40 d) D. melanogaster female heads (Wood et al 2010). We analyzed the Drosophila data using the same methods described earlier for the C. elegans data and observed a very similar negative correlation between gene body H3K36me3 levels and age-dependent mRNA expression changes (Spearman's correlation test, ρ = −0.50; P-value < 0.001; and linear regression analysis, R 2 = 0.92) (Fig.…”

Section: H3k36me3 Stabilizes Gene Expression Through Aging Genes and Dementioning

confidence: 99%

Trimethylation of Lys36 on H3 restricts gene expression change during aging and impacts life span

Wang

et al. 2015

Genes Dev.

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119

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Functional data indicate that specific histone modification enzymes can be key to longevity in Caenorhabditis elegans, but the molecular basis of how chromatin structure modulates longevity is not well understood. In this study, we profiled the genome-wide pattern of trimethylation of Lys36 on histone 3 (H3K36me3) in the somatic cells of young and old Caenorhabditis elegans. We revealed a new role of H3K36me3 in maintaining gene expression stability through aging with important consequences on longevity. We found that genes with dramatic expression change during aging are marked with low or even undetectable levels of H3K36me3 in their gene bodies irrespective of their corresponding mRNA abundance. Interestingly, 3′ untranslated region (UTR) length strongly correlates with H3K36me3 levels and age-dependent mRNA expression stability. A similar negative correlation between H3K36me3 marking and mRNA expression change during aging was also observed in Drosophila melanogaster, suggesting a conserved mechanism for H3K36me3 in suppressing age-dependent mRNA expression change. Importantly, inactivation of the methyltransferase met-1 resulted in a decrease in global H3K36me3 marks, an increase in mRNA expression change with age, and a shortened life span, suggesting a causative role of the H3K36me3 marking in modulating age-dependent gene expression stability and longevity.

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Chromatin remodeling in the aging genome of Drosophila

Cited by 169 publications

References 32 publications

Impaired secretion of interferons by dendritic cells from aged subjects to influenza

Impaired secretion of interferons by dendritic cells from aged subjects to influenza

Age‐associated de‐repression of retrotransposons in the Drosophila fat body, its potential cause and consequence

Trimethylation of Lys36 on H3 restricts gene expression change during aging and impacts life span

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