Dominic Bennett scite author profile

Background: Cellular senescence, a permanent state of replicative arrest in otherwise proliferating cells, is a hallmark of aging and has been linked to aging-related diseases. Many genes play a role in cellular senescence, yet a comprehensive understanding of its pathways is still lacking. Results: We develop CellAge (http://genomics.senescence.info/cells), a manually curated database of 279 human genes driving cellular senescence, and perform various integrative analyses. Genes inducing cellular senescence tend to be overexpressed with age in human tissues and are significantly overrepresented in anti-longevity and tumor-suppressor genes, while genes inhibiting cellular senescence overlap with pro-longevity and oncogenes. Furthermore, cellular senescence genes are strongly conserved in mammals but not in invertebrates. We also build cellular senescence protein-protein interaction and co-expression networks. Clusters in the networks are enriched for cell cycle and immunological processes. Network topological parameters also reveal novel potential cellular senescence regulators. Using siRNAs, we observe that all 26 candidates tested induce at least one marker of senescence with 13 genes (C9orf40, CDC25A, CDCA4, CKAP2, GTF3C4, HAUS4, IMMT, MCM7, MTHFD2, MYBL2, NEK2, NIPA2, and TCEB3) decreasing cell number, activating p16/p21, and undergoing morphological changes that resemble cellular senescence. Conclusions: Overall, our work provides a benchmark resource for researchers to study cellular senescence, and our systems biology analyses reveal new insights and gene regulators of cellular senescence.

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Rilmenidine extends lifespan and healthspan in Caenorhabditis elegans via a nischarin I1‐imidazoline receptor

Bennett

Goyala

Statzer

et al. 2023

Aging Cell

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Repurposing drugs capable of extending lifespan and health span has a huge untapped potential in translational geroscience. Here, we searched for known compounds that elicit a similar gene expression signature to caloric restriction and identified rilmenidine, an I1‐imidazoline receptor agonist and prescription medication for the treatment of hypertension. We then show that treating Caenorhabditis elegans with rilmenidine at young and older ages increases lifespan. We also demonstrate that the stress‐resilience, health span, and lifespan benefits of rilmenidine treatment in C. elegans are mediated by the I1‐imidazoline receptor nish‐1 , implicating this receptor as a potential longevity target. Consistent with the shared caloric‐restriction‐mimicking gene signature, supplementing rilmenidine to calorically restricted C. elegans , genetic reduction of TORC1 function, or rapamycin treatment did not further increase lifespan. The rilmenidine‐induced longevity required the transcription factors FOXO/DAF‐16 and NRF1,2,3/SKN‐1. Furthermore, we find that autophagy, but not AMPK signaling, was needed for rilmenidine‐induced longevity. Moreover, transcriptional changes similar to caloric restriction were observed in liver and kidney tissues in mice treated with rilmenidine. Together, these results reveal a geroprotective and potential caloric restriction mimetic effect by rilmenidine that warrant fresh lines of inquiry into this compound.

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A Multidimensional Systems Biology Analysis of Cellular Senescence in Ageing and Disease

Avelar

Ortega

Tăcutu

et al. 2019

Preprint

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Cellular senescence, a permanent state of replicative arrest in otherwise proliferating cells, is a hallmark of ageing and has been linked to ageing-related diseases like cancer. Senescent cells have been shown to accumulate in tissues of aged organisms which in turn can lead to chronic inflammation. Many genes have been associated with cell senescence, yet a comprehensive understanding of cell senescence pathways is still lacking. To this end, we created CellAge (http://genomics.senescence.info/cells), a manually curated database of 279 human genes associated with cellular senescence, and performed various integrative and functional analyses. We observed that genes promoting cell senescence tend to be overexpressed with age in human tissues and are also significantly overrepresented in anti-longevity and tumour-suppressor gene databases.By contrast, genes inhibiting cell senescence overlapped with pro-longevity genes and oncogenes.Furthermore, an evolutionary analysis revealed a strong conservation of senescence-associated genes in mammals, but not in invertebrates. Using the CellAge genes as seed nodes, we also built protein-protein interaction and co-expression networks. Clusters in the networks were enriched for cell cycle and immunological processes. Network topological parameters also revealed novel potential senescence-associated regulators. We then used siRNAs and observed that of 26 candidates tested, 19 induced markers of senescence. Overall, our work provides a new resource for researchers to study cell senescence and our systems biology analyses provide new insights and novel genes regarding cell senescence.

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Dominic Bennett

A multidimensional systems biology analysis of cellular senescence in aging and disease

Rilmenidine extends lifespan and healthspan in Caenorhabditis elegans via a nischarin I1‐imidazoline receptor

A Multidimensional Systems Biology Analysis of Cellular Senescence in Ageing and Disease

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