Mechanisms of Slowed Aging in a New Model System for Extended Longevity
Jessica Foley, Stephen Montgomery

TL;DR
This study explores how Heliconius butterflies live much longer than their relatives, suggesting evolved mechanisms that slow aging and may inform human longevity research.
Contribution
The paper introduces Heliconius butterflies as a novel model system for studying evolved, heritable mechanisms of slowed aging.
Findings
Heliconius butterflies live nearly a year, much longer than their close relatives.
Transcriptomic analysis shows upregulated protein-folding pathways in aged Heliconius, indicating enhanced proteostasis.
The study provides evidence for evolved, heritable mechanisms of slowed aging in Heliconius.
Abstract
Evolution has given rise to lifespans in extant species ranging from days to centuries. Given that mechanisms of aging are highly conserved, studies of long-lived lineages across the animal kingdom could shed light on mechanisms of healthy aging in humans. However, typical animal models of extended lifespan often live for decades, making them intractable for longitudinal studies. Ideal model systems would instead be organisms that are long-lived relative to their close evolutionary relatives, yet have lifespans on experimentally tractable scales. Lifespans in the Heliconius butterfly genus, reaching nearly a year, are among the longest recorded in butterflies. This represents a dramatic extension over their closest relatives in the Heliconiini tribe, which typically live only 1–2 months. While previous work has attributed this difference to a plastic response to enhanced nutrition, the…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsGenetics, Aging, and Longevity in Model Organisms · Lepidoptera: Biology and Taxonomy · Animal Behavior and Reproduction
