Litcius/Paper detail

A scenario for an evolutionary selection of ageing

Tristan Roget, Claire MacMurray, Pierre Jolivet, Sylvie Méléard, Michaël Rera

2024eLife11 citationsDOIOpen Access PDF

Abstract

Signs of ageing become apparent only late in life, after organismal development is finalized. Ageing, most notably, decreases an individual's fitness. As such, it is most commonly perceived as a non-adaptive force of evolution and considered a by-product of natural selection. Building upon the evolutionarily conserved age-related Smurf phenotype, we propose a simple mathematical life-history trait model in which an organism is characterized by two core abilities: reproduction and homeostasis. Through the simulation of this model, we observe (1) the convergence of fertility's end with the onset of senescence, (2) the relative success of ageing populations, as compared to non-ageing populations, and (3) the enhanced evolvability (i.e. the generation of genetic variability) of ageing populations. In addition, we formally demonstrate the mathematical convergence observed in (1). We thus theorize that mechanisms that link the timing of fertility and ageing have been selected and fixed over evolutionary history, which, in turn, explains why ageing populations are more evolvable and therefore more successful. Broadly speaking, our work suggests that ageing is an adaptive force of evolution.

Topics & Concepts

AgeingEvolutionary biologySelection (genetic algorithm)Computational biologyBiologyComputer scienceGeneticsArtificial intelligenceGenetics, Aging, and Longevity in Model Organisms