Open access · CC-BY
via OpenAlex
Aging, Metabolism, and Cancer Development: from Peto’s Paradox to the Warburg Effect
Tia Tidwell, Kjetil Søreide, Hanne R. Hagland
Aging and Disease · 2017 · ▲ 63 citations
Abstract
Medical advances made over the last century have increased our lifespan, but age-related diseases are a fundamental health burden worldwide. Aging is therefore a major risk factor for cardiovascular disease, cancer, diabetes, obesity, and neurodegenerative diseases, all increasing in prevalence. However, huge inter-individual variations in aging and disease risk exist, which cannot be explained by chronological age, but rather physiological age decline initiated even at young age due to lifestyle. At the heart of this lies the metabolic system and how this is regulated in each individual. Metabolic turnover of food to energy leads to accumulation of co-factors, byproducts, and certain proteins, which all influence gene expression through epigenetic regulation. How these epigenetic markers accumulate over time is now being investigated as the possible link between aging and many diseases, such as cancer. The relationship between metabolism and cancer was described as early as the late 1950s by Dr. Otto Warburg, before the identification of DNA and much earlier than our knowledge of epigenetics. However, when the stepwise gene mutation theory of cancer was presented, Warburg's theories garnered little attention. Only in the last decade, with epigenetic discoveries, have Warburg's data on the metabolic shift in cancers been brought back to life. The stepwise gene mutation theory fails to explain why large animals with more cells, do not have a greater cancer incidence than humans, known as Peto's paradox. The resurgence of research into the Warburg effect has given us insight to what may explain Peto's paradox. In this review, we discuss these connections and how age-related changes in metabolism are tightly linked to cancer development, which is further affected by lifestyle choices modulating the risk of aging and cancer through epigenetic control.
◌ CITATION ONLY
Full text is not openly licensed for redistribution here. Read it at the source:
Provenance
- Source
- OpenAlex
- DOI
- 10.14336/ad.2017.0713
- Canonical
- link ↗
- Fetched
- 2026-07-07 MST
Cite this
APA
Tidwell, T., Søreide, K., & Hagland, H.R. (2017). Aging, Metabolism, and Cancer Development: from Peto’s Paradox to the Warburg Effect. <em>Aging and Disease</em>. https://doi.org/10.14336/ad.2017.0713
Vancouver
Tidwell T, Søreide K, Hagland HR. Aging, Metabolism, and Cancer Development: from Peto’s Paradox to the Warburg Effect. Aging and Disease. 2017. doi:10.14336/ad.2017.0713.
BibTeX
@article{tia2017AgingM,
title = {Aging, Metabolism, and Cancer Development: from Peto’s Paradox to the Warburg Effect},
author = {Tia Tidwell and Kjetil Søreide and Hanne R. Hagland},
journal = {Aging and Disease},
year = {2017},
doi = {10.14336/ad.2017.0713},
}
Research neighborhood
References, citing works, and semantically nearest findings. Click a node to open it.
Related findings
Disease Models & Mechanisms 2016
Open access · CC-BY
Telomeres in aging and disease: lessons from zebrafish
Wiley Interdisciplinary Reviews - RNA 2020
Open access · OA
Translational control in aging and neurodegeneration
Oxidative Medicine and Cellular Longevity 2017
Open access · CC-BY
Epigenetics and Oxidative Stress in Aging
BDJ 2016
Open access · CC-BY
The oral microbiome – an update for oral healthcare professionals
Nutrition and Healthy Aging 2017
Open access · OA
Gut microbiome and aging: Physiological and mechanistic insights
BMC Biology 2017
Open access · CC-BY