Deze website maakt gebruik van cookies. We gebruiken cookies om instellingen te onthouden en je bezoek soepeler te laten verlopen. Daarnaast gebruiken we ook cookies voor de verbetering van de website en het verzamelen en analyseren van statistieken. Lees meer over cookies

Wilbert Vermeij

Senior Postdoc
Wilbert Vermeij
Wilbert Vermeij
Wilbert is senior postdoc in de groep van Jan Hoeijmakers
Phone +31 (0)88 97 25266

Dietary restriction (DR), or reduced food intake without malnutrition, is well-known to extend lifespan and reduce age-related pathology in many species, including primates, and has been shown to attenuate neurological and neurodegenerative abnormalities in aged rodents and monkeys. Although it has been shown that DR may interfere with multiple pathways, the protective mechanisms by which it attenuates the effect of ageing are not fully understood.

Subjecting prematurely ageing mouse models to DR (in collaboration with the RIVM, Bilthoven) resulted in the largest lifespan increase recorded in mammals: 30% DR extended median and maximal remaining lifespan by 200%(!) and drastically retarded numerous aspects of accelerated ageing (Vermeij et al., 2016 Nature).

As these mice respond extremely well to dietary changes and reveal the potential for reducing endogenous DNA damage, they prove to be useful tools for understanding health-sustaining interventions: besides exhibiting novel insight into the optimal timing of short-term DR or fasting regimes during the progression of ageing they also revealed a distinction in systemic versus autonomous neuroprotective responses of DR.

We are currently analysing the effect of different nutritional interventions to elucidate the mechanism of life- and health span extension by DR. Particularly the potential of reducing toxicity of DNA damage is of great importance for preventing long-term side-effects of chemotherapy. Knowing the processes and pathways involved might lead to the identification of DR mimetics or nutritional interventions strategies to promote healthy ageing in humans.

  • Hybrid Molecular and Functional Micro-CT Imaging Reveals Increased Myocardial Apoptosis Preceding Cardiac Failure in Progeroid Ercc1 Mice

    • mrt. 2024
    • Bibi S, van Thiel, et al
    • Molecular Imaging and Biology
  • Different Purkinje cell pathologies cause specific patterns of progressive gait ataxia in mice

    • jan. 2024
    • Dick, Jaarsma, et al
    • Neurobiology of Disease
  • Chocolate brownies and calorie restriction: the sweetest paradox?

    • dec. 2023
    • C A J, Oudmaijer, et al
    • BMJ (Clinical research ed.)
  • Do treats facilitate the interpretation of findings on caloric restriction?

    • dec. 2023
    • Christiaan Albert Johan, Oudmaijer, et al
    • BMJ Nutrition, Prevention & Health
  • Decreased hepatic thyroid hormone signaling in systemic and liver-specific, but not brain-specific accelerated aging due to DNA repair deficiency in mice

    • okt. 2023
    • Sander, Barnhoorn, et al
    • European thyroid journal
Bekijk alle publicaties