A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence
Aging and senescence are characterized by pervasive transcriptional dysfunction, including increased expression of transposons and introns. Our aim was to elucidate mechanisms behind this increased expression. Most transposons are found within genes and introns, with a large minority being close to...
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sg-ntu-dr.10356-1715142023-10-30T15:32:08Z A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence Pabis, Kamil Barardo, Diogo Selvarajoo, Kumar Gruber, Jan Kennedy, Brian K. School of Biological Sciences Bioinformatics Institute, A*STAR Singapore Institute of Food and Biotechnology Innovation, A*STAR Science::Biological sciences Aging Algorithm Aging and senescence are characterized by pervasive transcriptional dysfunction, including increased expression of transposons and introns. Our aim was to elucidate mechanisms behind this increased expression. Most transposons are found within genes and introns, with a large minority being close to genes. This raises the possibility that transcriptional readthrough and intron retention are responsible for age-related changes in transposon expression rather than expression of autonomous transposons. To test this, we compiled public RNA-seq datasets from aged human fibroblasts, replicative and drug-induced senescence in human cells and RNA-seq from aging mice and senescent mouse cells. Indeed, our reanalysis revealed a correlation between transposons expression, intron retention and transcriptional readthrough across samples and within samples. Both intron retention and readthrough increased with aging or cellular senescence and these transcriptional defects were more pronounced in human samples as compared to those of mice. In support of a causal connection between readthrough and transposon expression, analysis of models showing induced transcriptional readthrough confirmed that they also show elevated transposon expression. Taken together, our data shows that elevated transposon reads during aging seen in various RNA-seq dataset are concomitant with multiple transcriptional defects. Intron retention and transcriptional readthrough are the most likely explanation for the expression of transposable elements that lack a functional promoter. Published version We would like to thank VitaDAO for financial support. 2023-10-30T01:53:45Z 2023-10-30T01:53:45Z 2023 Journal Article Pabis, K., Barardo, D., Selvarajoo, K., Gruber, J. & Kennedy, B. K. (2023). A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence. ELife. https://dx.doi.org/10.7554/eLife.87811.1 2050-084X https://hdl.handle.net/10356/171514 10.7554/eLife.87811.1 2-s2.0-85166773389 en eLife © 2023 Kamil Pabis et al., eLife. This is an open-access article distributed under the terms of the Creative Commons License. application/pdf |
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Science::Biological sciences Aging Algorithm Pabis, Kamil Barardo, Diogo Selvarajoo, Kumar Gruber, Jan Kennedy, Brian K. A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| description |
Aging and senescence are characterized by pervasive transcriptional dysfunction, including increased expression of transposons and introns. Our aim was to elucidate mechanisms behind this increased expression. Most transposons are found within genes and introns, with a large minority being close to genes. This raises the possibility that transcriptional readthrough and intron retention are responsible for age-related changes in transposon expression rather than expression of autonomous transposons. To test this, we compiled public RNA-seq datasets from aged human fibroblasts, replicative and drug-induced senescence in human cells and RNA-seq from aging mice and senescent mouse cells. Indeed, our reanalysis revealed a correlation between transposons expression, intron retention and transcriptional readthrough across samples and within samples. Both intron retention and readthrough increased with aging or cellular senescence and these transcriptional defects were more pronounced in human samples as compared to those of mice. In support of a causal connection between readthrough and transposon expression, analysis of models showing induced transcriptional readthrough confirmed that they also show elevated transposon expression. Taken together, our data shows that elevated transposon reads during aging seen in various RNA-seq dataset are concomitant with multiple transcriptional defects. Intron retention and transcriptional readthrough are the most likely explanation for the expression of transposable elements that lack a functional promoter. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Pabis, Kamil Barardo, Diogo Selvarajoo, Kumar Gruber, Jan Kennedy, Brian K. |
| format |
Article |
| author |
Pabis, Kamil Barardo, Diogo Selvarajoo, Kumar Gruber, Jan Kennedy, Brian K. |
| author_sort |
Pabis, Kamil |
| title |
A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| title_short |
A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| title_full |
A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| title_fullStr |
A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| title_full_unstemmed |
A concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| title_sort |
concerted increase in readthrough and intron retention drives transposon expression during aging and senescence |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171514 |
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1781793860752506880 |