The caterpillar fungus Ophiocordyceps sinensis (previously called Cordyceps sinensis) has been used for centuries in Asia as a tonic to improve health and longevity. Recent studies show that O. sinensis produces a wide range of biological effects on cells, laboratory animals and humans, including anti-fatigue, anti-infection, anti-inflammatory, antioxidant, and anti-tumor activities. In view of the rarity of O. sinensis fruiting bodies in nature, cultivation of its anamorph mycelium represents a useful alternative for large-scale production. However, O. sinensis fruiting bodies harvested in nature harbor several fungal contaminants, a phenomenon that led to the isolation and characterization of a large number of incorrect mycelium strains. We report here the isolation of a mycelium from a fruiting body of O. sinensis and we identify the isolate as O. sinensis’ anamorph (also called Hirsutella sinensis) based on multi-locus sequence typing of several fungal genes (ITS, nrSSU, nrLSU, RPB1, RPB2, MCM7, β-tubulin, TEF-1α, and ATP6). The main characteristics of the isolated mycelium, including its optimal growth at low temperature (16°C) and its biochemical composition, are similar to that of O. sinensis fruiting bodies, indicating that the mycelium strain characterized here may be used as a substitute for the rare and expensive O. sinensis fruiting bodies found in nature.
The medicinal fungus
Ganoderma lucidum
is used as a dietary supplement and health tonic, but whether it affects longevity remains unclear. We show here that a water extract of
G. lucidum
mycelium extends lifespan of the nematode
Caenorhabditis elegans
. The
G. lucidum
extract reduces the level of fibrillarin (FIB-1), a nucleolar protein that correlates inversely with longevity in various organisms. Furthermore,
G. lucidum
treatment increases expression of the autophagosomal protein marker LGG-1, and lifespan extension is abrogated in mutant
C. elegans
strains that lack
atg-18
,
daf-16
, or
sir-2.1
, indicating that autophagy and stress resistance pathways are required to extend lifespan. In cultured human cells,
G. lucidum
increases concentrations of the LGG-1 ortholog LC3 and reduces levels of phosphorylated mTOR, a known inhibitor of autophagy. Notably, low molecular weight compounds (<10 kDa) isolated from the
G. lucidum
water extract prolong lifespan of
C. elegans
and the same compounds induce autophagy in human cells. These results suggest that
G. lucidum
can increase longevity by inducing autophagy and stress resistance.
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