A collective analysis of lifespan-extending compounds in diverse model organisms, and of species whose lifespan can be extended the most by the application of compounds

doi:10.1007/s10522-021-09941-y

. 2021 Dec;22(6):639-653.

doi: 10.1007/s10522-021-09941-y. Epub 2021 Oct 23.

A collective analysis of lifespan-extending compounds in diverse model organisms, and of species whose lifespan can be extended the most by the application of compounds

Caglar Berkel¹, Ercan Cacan²

Affiliations

¹ Department of Molecular Biology and Genetics, Tokat Gaziosmanpasa University, 60250, Tokat, Turkey. caglar.berkel@gop.edu.tr.
² Department of Molecular Biology and Genetics, Tokat Gaziosmanpasa University, 60250, Tokat, Turkey. ercan.cacan@gop.edu.tr.

PMID: 34687363
DOI: 10.1007/s10522-021-09941-y

A collective analysis of lifespan-extending compounds in diverse model organisms, and of species whose lifespan can be extended the most by the application of compounds

Caglar Berkel et al. Biogerontology. 2021 Dec.

. 2021 Dec;22(6):639-653.

doi: 10.1007/s10522-021-09941-y. Epub 2021 Oct 23.

Authors

Caglar Berkel¹, Ercan Cacan²

Affiliations

¹ Department of Molecular Biology and Genetics, Tokat Gaziosmanpasa University, 60250, Tokat, Turkey. caglar.berkel@gop.edu.tr.
² Department of Molecular Biology and Genetics, Tokat Gaziosmanpasa University, 60250, Tokat, Turkey. ercan.cacan@gop.edu.tr.

PMID: 34687363
DOI: 10.1007/s10522-021-09941-y

Abstract

Research on aging and lifespan-extending compounds has been carried out using diverse model organisms, including yeast, worms, flies and mice. Many studies reported the identification of novel lifespan-extending compounds in different species, some of which may have the potential to translate to the clinic. However, studies collectively and comparatively analyzing all the data available in these studies are highly limited. Here, by using data from the DrugAge database, we first identified top compounds in terms of their effects on percent change in average lifespan of diverse organisms, collectively (n = 1728). We found that, when data from all organisms studied were combined for each compound, aspirin resulted in the highest percent increase in average lifespan (52.01%), followed by minocycline (27.30%), N-acetyl cysteine (17.93%), nordihydroguaiaretic acid (17.65%) and rapamycin (15.66%), in average. We showed that minocycline led to the highest percent increase in average lifespan among other compounds, in both Drosophila melanogaster (28.09%) and Caenorhabditis elegans (26.67%), followed by curcumin (11.29%) and gluconic acid (5.51%) for D. melanogaster and by metformin (26.56%), resveratrol (15.82%) and quercetin (9.58%) for C. elegans. Moreover, we found that top 5 species whose lifespan can be extended the most by compounds with lifespan-extending properties are Philodina acuticornis, Acheta domesticus, Aeolosoma viride, Mytilina brevispina and Saccharomyces cerevisiae (211.80%, 76%, 70.26%, 55.18% and 45.71% in average, respectively). This study provides novel insights on lifespan extension in model organisms, and highlights the importance of databases with high quality content curated by researchers from multiple resources, in aging research.

Keywords: Aging; Caenorhabditis elegans; Drosophila melanogaster; Lifespan; Minocycline; Model organisms; Philodina acuticornis.

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[1] Allaire JJ, Xie Y, McPherson J, Luraschi J, Ushey K, Atkins A, Wickham H, Cheng J, Chang W, Iannone R (2021) rmarkdown: dynamic documents for R. R package version 2.10. https://rmarkdown.rstudio.com

[2] Allaire JJ, Xie Y, McPherson J, Luraschi J, Ushey K, Atkins A, Wickham H, Cheng J, Chang W, Iannone R (2021) rmarkdown: dynamic documents for R. R package version 2.10. https://rmarkdown.rstudio.com

[3] Avelar RA, Ortega JG, Tacutu R, Tyler EJ, Bennett D, Binetti P, Budovsky A, Chatsirisupachai K, Johnson E, Murray A, Shields S, Tejada-Martinez D, Thornton D, Fraifeld VE, Bishop CL, de Magalhães JP (2020) A multidimensional systems biology analysis of cellular senescence in aging and disease. Genome Biol 21(1):91. https://doi.org/10.1186/s13059-020-01990-9 - DOI - PubMed - PMC

[4] Avelar RA, Ortega JG, Tacutu R, Tyler EJ, Bennett D, Binetti P, Budovsky A, Chatsirisupachai K, Johnson E, Murray A, Shields S, Tejada-Martinez D, Thornton D, Fraifeld VE, Bishop CL, de Magalhães JP (2020) A multidimensional systems biology analysis of cellular senescence in aging and disease. Genome Biol 21(1):91. https://doi.org/10.1186/s13059-020-01990-9 - DOI - PubMed - PMC

[5] Ayuda-Durán B, González-Manzano S, Miranda-Vizuete A, Dueñas M, Santos-Buelga C, González-Paramás AM (2019) Epicatechin modulates stress-resistance in C. elegans via insulin/IGF-1 signaling pathway. PLoS ONE 14(1):e0199483. https://doi.org/10.1371/journal.pone.0199483 - DOI - PubMed - PMC

[6] Ayuda-Durán B, González-Manzano S, Miranda-Vizuete A, Dueñas M, Santos-Buelga C, González-Paramás AM (2019) Epicatechin modulates stress-resistance in C. elegans via insulin/IGF-1 signaling pathway. PLoS ONE 14(1):e0199483. https://doi.org/10.1371/journal.pone.0199483 - DOI - PubMed - PMC

[7] Bains JS, Garg SK, Sharma SP (1998) Effect of butylated hydroxyanisole on catalase activity and malondialdehyde content in aging Zaprionus paravittiger (diptera). Gerontology 44(5):262–266. https://doi.org/10.1159/000022022 - DOI - PubMed

[8] Bains JS, Garg SK, Sharma SP (1998) Effect of butylated hydroxyanisole on catalase activity and malondialdehyde content in aging Zaprionus paravittiger (diptera). Gerontology 44(5):262–266. https://doi.org/10.1159/000022022 - DOI - PubMed

[9] Barardo D, Thornton D, Thoppil H, Walsh M, Sharifi S, Ferreira S, Anžič A, Fernandes M, Monteiro P, Grum T, Cordeiro R, De-Souza EA, Budovsky A, Araujo N, Gruber J, Petrascheck M, Fraifeld VE, Zhavoronkov A, Moskalev A, de Magalhães JP (2017) The DrugAge database of aging-related drugs. Aging Cell 16(3):594–597. https://doi.org/10.1111/acel.12585 - DOI - PubMed - PMC

[10] Barardo D, Thornton D, Thoppil H, Walsh M, Sharifi S, Ferreira S, Anžič A, Fernandes M, Monteiro P, Grum T, Cordeiro R, De-Souza EA, Budovsky A, Araujo N, Gruber J, Petrascheck M, Fraifeld VE, Zhavoronkov A, Moskalev A, de Magalhães JP (2017) The DrugAge database of aging-related drugs. Aging Cell 16(3):594–597. https://doi.org/10.1111/acel.12585 - DOI - PubMed - PMC

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A collective analysis of lifespan-extending compounds in diverse model organisms, and of species whose lifespan can be extended the most by the application of compounds

Affiliations

A collective analysis of lifespan-extending compounds in diverse model organisms, and of species whose lifespan can be extended the most by the application of compounds

Authors

Affiliations

Abstract

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References

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LinkOut - more resources

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