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New
study shows that creatine offers skin
protection
The Journal of Investigative Dermatology
Volume 124 Issue 2 Page 443 - February
2005
doi:10.1111/j.0022-202X.2004.23522.x
The Creatine Kinase System in Human Skin:
Protective Effects of Creatine Against
Oxidative and UV Damage In Vitro and In Vivo.
Holger Lenz*, Melanie Schmidt, Vivienne Welge,
Uwe Schlattner, Theo Wallimann, Hans-Peter Elsässer*,
Klaus-Peter Wittern, Horst Wenck, Franz Stäb,
and Thomas Blatt.
Cutaneous
aging is characterized by a decline in
cellular energy metabolism, which is mainly
caused by detrimental changes in mitochondrial
function. The processes involved seem to be
predominantly mediated by free radicals known
to be generated by exogenous noxes, e.g.,
solar ultraviolet (UV) radiation. Basically,
skin cells try to compensate any loss of
mitochondrial energetic capacity by
extra-mitochondrial pathways such as
glycolysis or the creatine kinase (CK) system.
Recent studies reported the presence of
cytosolic and mitochondrial isoenzymes of CK,
as well as a creatine transporter in human
skin.
In
this study, we analyzed the cutaneous CK
system, focusing on those cellular stressors
known to play an important role in the process
of skin aging. According to our results, a
stress-induced decline in mitochondrial energy
supply in human epidermal cells correlated
with a decrease in mitochondrial CK activity.
In addition, we investigated the effects of
creatine supplementation on human epidermal
cells as a potential mechanism to reinforce
the endogenous energy supply in skin.
Exogenous creatine was taken up by
keratinocytes and increased CK activity,
mitochondrial function and protected against
free oxygen radical stress.
Finally,
our new data clearly indicate that human skin
cells that are energetically recharged with
the naturally occurring energy precursor,
creatine, are markedly protected against a
variety of cellular stress conditions, like
oxidative and UV damage in vitro and in vivo.
This may have further implications in
modulating processes, which are involved in
premature skin aging and skin damage.
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