Protective antioxidative effects of caffeic acid phenethyl
ester (CAPE) in the thyroid and the liver are similar to those caused by
melatonin
Thyroid Res, 2014 Jun 5;7:5
BACKGROUND:
Whereas oxidative reactions occur in all tissues and organs,
the thyroid constitutes such an organ, in which oxidative processes are
indispensable for physiological functions. In turn, numerous metabolic
reactions occurring in the liver create favourable conditions for huge
oxidative stress. Melatonin is a well-known antioxidant with protective effects
against oxidative damage perfectly documented in many tissues, the thyroid and
the liver included. Caffeic acid phenethyl ester (CAPE), a component of honeybee
propolis, has been suggested to be also an effective antioxidant. The aim of
the study was to evaluate the effects of CAPE on Fenton reaction-induced
oxidative damage to membrane lipids (lipid peroxidation, LPO) in porcine
thyroid and liver, and to compare the results with protective effects of
melatonin.
METHODS:
Thyroid and liver homogenates were incubated in the presence
of CAPE (500; 100; 50; 10; 5.0; 1.0 μM) or melatonin (500; 100; 50; 10; 5.0;
1.0 μM), without or with addition of FeSO4 (30 μM) + H2O2 (0.5 mM). The level
of lipid peroxidation was measured spectrophotometrically and expressed as the
amount of MDA + 4-HDA (nmol) per mg of protein.
RESULTS:
Whereas CAPE decreased the basal LPO in a
concentration-dependent manner in both tissues, melatonin did not change the
basal LPO level. When antioxidants were used together with Fenton reaction
substrates, they prevented - in a concentration-dependent manner and to a
similar extent - experimentally-induced LPO in both tissues.
CONCLUSIONS:
Protective antioxidative effects of CAPE in the thyroid and
the liver are similar to those caused by melatonin. CAPE constitutes a
promising agent in terms of its application in experimental and, possibly,
clinical studies.
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