Plant adaptogens increase lifespan and stress resistance in C. elegans
Publication date
2008
Authors
Wiegant, F.A.C.
Surinova, S.
Ytsma, E.
Langelaar-Makkinje, M.
Wikman, G.
Post, J.A.
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Advisors
Supervisors
Document Type
Article
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Abstract
Extracts of plant adaptogens such as
Eleutherococcus senticosus (or Acanthopanax senticosus)
and Rhodiola rosea can increase stress
resistance in several model systems. We now show
that both extracts also increase the mean lifespan of the
nematode C. elegans in a dose-dependent way. In at
least four independent experiments, 250 μg/ml Eleutherococcus
(SHE-3) and 10–25 μg/ml Rhodiola
(SHR-5) significantly increased life span between 10
and 20% (P<0.001), increased the maximum lifespan
with 2–3 days and postponed the moment when
the first individuals in a population die, suggesting a
modulation of the ageing process. With higher concentrations,
less effect was observed, whereas at the
highest concentrations tested (2500 μg/ml Eleutherococcus
and 250 μg/ml Rhodiola) a lifespan shortening
effect was observed of 15–25% (P<0.001). Both
adaptogen extracts were also able to increase stress
resistance in C. elegans: against a relatively short heat shock (35°C during 3 h) as well as chronic heat
treatment at 26°C. An increase against chronic oxidative
stress conditions was observed in mev-1 mutants,
and during exposure of the wild type nematode to
paraquat (10 mM) or UV stress, be it less efficiently.
Concerning the mode of action: both adaptogens
induce translocation of the DAF-16 transcription
factor from the cytoplasm into the nucleus, suggesting
a reprogramming of transcriptional activities favoring
the synthesis of proteins involved in stress resistance
(such as the chaperone HSP-16) and longevity. Based
on these observations, it is suggested that adaptogens
are experienced as mild stressors at the lifespanenhancing
concentrations and thereby induce
increased stress resistance and a longer lifespan.
Keywords
Adaptogens, Eleutherococcus senticosus, Longevity, Rhodiola rosea, Stress resistance