Tannic acid has numerous food and pharmacological applications. It is an ad
ditive in medicinal products, and is used as a flavouring agent and as an a
nti-oxidant in various foods and beverages. We have previously shown that t
annic acid in the presence of Cu(II) causes DNA degradation through generat
ion of reactive oxygen species; On the other hand, it exhibits antimutageni
c and anticarcinogenic activities, and induces apoptosis in animal cells. I
t is known that most plant-derived polyphenolic anti-oxidants also act as p
ro-oxidants under certain conditions. In this paper, we compare the anti-ox
idant and pro-oxidant properties of tannic acid and its structural componen
t gallic acid. It is shown that tannic acid is the most efficient generator
of the hydroxyl radical in the presence of Cu(II). as compared with gallic
acid and its analogues syringic acid and pyrogallol. The anti-oxidant acti
vity of tannic acid was studied by its effect on hydroxyl radical and singl
et oxygen mediated cleavage of plasmid DNA. Again, tannic acid provided the
maximum protection against cleavage, while gallic acid and its structural
analogues were found to be non-inhibitory or partially inhibitory. The resu
lts suggest that the structural features of tannic acid that are important
for its anti-oxidant action are also those that contribute to the generatio
n of hydroxyl radicals in the presence of Cu(II). Restriction analysis of t
reated phage DNA and thermal melting profiles of calf thymus DNA indicated
that tannic acid strongly binds to DNA. Indirect evidence indicates that mo
dification of DNA bases may also occur. (C) 2000 Elsevier Science Ireland L
td. All rights reserved.