A comprehensive model for the biochemistry of ageing, senescence and longevity

Hiskias Gerrit Keizer*, R. Brands, Ronald Sake Oosting, Willem Seinen

*Corresponding author for this work

Research output: Contribution to journalReview articlepeer-review

Abstract

Various models for ageing, each focussing on different biochemical and/or cellular pathways have been proposed. This has resulted in a complex and non-coherent portrayal of ageing. Here, we describe a concise and comprehensive model for the biochemistry of ageing consisting of three interacting signalling hubs. These are the nuclear factor kappa B complex (NFκB), controlling the innate immune system, the mammalian target for rapamycin complex, controlling cell growth, and the integrated stress responses, controlling homeostasis. This model provides a framework for most other, more detailed, biochemical pathways involved in ageing, and explains why ageing involves chronic inflammation, cellular senescence, and vulnerability to environmental stress, while starting with the spontaneous formation of advanced glycation end products. The totality of data underlying this model suggest that the gradual inhibition of the AMPK-ISR probably determines the maximal lifespan. Based on this model, anti-ageing drugs in general, are expected to show hormetic dose response curves. This complicates the process of dose-optimization. Due to its specific mechanism of action, the anti-aging drug alkaline phosphatase is an exception to this rule, because it probably exhibits saturation kinetics.

Original languageEnglish
Pages (from-to)615-626
Number of pages12
JournalBiogerontology
Volume25
Issue number4
Early online date5 Mar 2024
DOIs
Publication statusPublished - Jul 2024

Keywords

  • Advanced glycation end products
  • AMPK
  • ATF4
  • DAMPs
  • Hormesis
  • Integrated stress response
  • Longevity
  • mTOR
  • NFκB
  • PAMPs

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