lular uptake was necessary for the

lular uptake was necessary for the protective effect.
UVR generates reactive oxygen species in skin
(UVA  UVB), resulting in oxidation of proteins.50
DNA repair enzymes appear to be especially prone
to UVA damage,51 which may lead to inefficient
excision of pyrimidine dimers. Topical antioxidants
may help to prevent this damage. Chen et al52 demonstrated,
in UV-irradiated mice, a 55% reduction of
pyrimidine dimer formation in epidermal p53 by
topical
-tocopherol. However, they saw little
change in effect from 1 to 10 hours after irradiation
and reasoned that it was unlikely that the effect
related to repair.52 Although we cannot completely
eliminate a sunscreen effect to explain our data with
vitamins C and E, we believe that the effect is minimal.
In support, protection against photocarcinogenesis
and pyrimidine dimer formation has been
reported using other antioxidants including green
tea polyphenols53,54 and silymarin55 in the apparent
absence of UVR absorption.
Photochemistry requires absorption of photons
by a chromophore. Transurocanic acid is a major
chromophore for generation of singlet oxygen in
skin.56,57 Its maximum concentration is in the upper
epidermis and stratum corneum. The peak UV spectrum
for singlet oxygen generation from urocanic
acid is about 345 nm. The stratum corneum antioxidant
system is strategically placed to deal with this
insult to the skin barrier.
Photoprotection against erythema has been previously
reported by combination vitamins C and E
administered systemically58,59 or applied topically to
skin.47,60 This combination was particularly effective
at preventing the tanning response and immunosuppression
of contact hypersensitivity.61 Because
-tocopherol
is the major antioxidant of the outer layers
of skin, its lipophilic nature lends itself to topical
application; absorption occurs in minutes.39 Simultaneous
application of L-ascorbic acid may be an
advantage because it adds a coantioxidant to the
outer layers of skin. It may then be available to
regenerate
-tocopherol whenever it is oxidized,
regenerating it for further protection.
Because L-ascorbic acid and
-tocopherol are relatively
unstable in cosmetic formulations, these
compounds have been esterified to improve stability.
These esters are readily converted when taken
orally, but not necessarily changed to active compounds
when topically applied to skin. Indeed, neither
magnesium ascorbyl phosphate nor ascorbyl-6-
palmitate topically applied appreciably changed
skin levels of L-ascorbic acid.8 Likewise, esters of

-tocopherol, including tocopherol acetate are only
poorly converted and are functionally ineffective
when used topically for skin.62,63
CONCLUSION
We demonstrate that protection against UV irradiation
can be achieved with a solution containing a
combination of vitamins C and E. Combination antioxidants
may be particularly efficacious in that they
may eliminate toxic free radicals by transfer of single
hydrogen atoms rather than electrons.14 In this way,
they may reduce damaging free radicals while minimizing
the reduction of molecular oxygen to superoxide
and adding additional free radical stress. Antioxidants
do not work individually in the skin but
work synergistically in an integrated and regulated
way to protect against oxidative stress.9,12 Combining
these 2 antioxidants, vitamins C and E, can provide
useful supplementation to sunscreen protection
against photocarcinogenesis and photoaging damage
produced by the sun.
Thanks and appreciation to Dr Doren Madey for her
excellent ideas and support as well as for her dedicated
help in preparing the manuscript.
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