<p>The traditional linear no-threshold model of toxicity and stress fails to capture the complex, adaptive nature of biological systems. Hormesis—a biphasic dose–response phenomenon where low-dose stress induces beneficial, adaptive responses while high doses cause harm—offers a more comprehensive paradigm. This article asserts that hormesis is a major, unifying explanatory principle of life that efficiently integrates evolutionary theory, genetics, and epigenetics. From an evolutionary perspective, hormesis is an energy-efficient strategy of adaptive homeostasis, permitting organisms to build biological capital during mild hardships/stresses to survive subsequent acute or chronic environmentally and/or age-related life-threatening challenges. Mechanistically, this survival strategy is hardwired into the genome via highly conserved stress-response networks (e.g., Nrf2, FOXO, Sirtuins) that upregulate cytoprotective pathways upon the detection of mild stressors. Furthermore, epigenetics provides the temporal bridge, recording these stress events via chromatin remodeling to create a lasting ‘memory’ of resilience, which may even be transmitted transgenerationally to prime/adapt offspring for future adversity. Ultimately, synthesizing these three biological domains through the lens of hormesis redefines biomedically based understandings of health, aging, and disease, demonstrating that biological resilience is actively maintained through manageable environmental and age-related challenges rather than the absence of stress.</p>

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The crucible of resilience: hormesis as the unifying principle of evolution, genetics, and epigenetics

  • Edward J. Calabrese,
  • Evgenios Agathokleous

摘要

The traditional linear no-threshold model of toxicity and stress fails to capture the complex, adaptive nature of biological systems. Hormesis—a biphasic dose–response phenomenon where low-dose stress induces beneficial, adaptive responses while high doses cause harm—offers a more comprehensive paradigm. This article asserts that hormesis is a major, unifying explanatory principle of life that efficiently integrates evolutionary theory, genetics, and epigenetics. From an evolutionary perspective, hormesis is an energy-efficient strategy of adaptive homeostasis, permitting organisms to build biological capital during mild hardships/stresses to survive subsequent acute or chronic environmentally and/or age-related life-threatening challenges. Mechanistically, this survival strategy is hardwired into the genome via highly conserved stress-response networks (e.g., Nrf2, FOXO, Sirtuins) that upregulate cytoprotective pathways upon the detection of mild stressors. Furthermore, epigenetics provides the temporal bridge, recording these stress events via chromatin remodeling to create a lasting ‘memory’ of resilience, which may even be transmitted transgenerationally to prime/adapt offspring for future adversity. Ultimately, synthesizing these three biological domains through the lens of hormesis redefines biomedically based understandings of health, aging, and disease, demonstrating that biological resilience is actively maintained through manageable environmental and age-related challenges rather than the absence of stress.