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1

Emulgatory typu estrów heksitoli

100%
Soltys E.
Tłuszcze i Środki Piorące. Biuletyn Instytutu Przemysłu Tłuszczowego
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1964
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tom 08
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nr 1
2
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The estrogenic status and the COMT genotype of female blood donors influence the protective ability of the Mediterranean plant extracts against the hydrogen peroxide-induced DNA damage in lymphocytes

68%
Kapiszewska M., Zajac G., Kalemba M., Soltys E.
Journal of Physiology and Pharmacology. Supplement
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2005
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tom 56
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nr 1
199-217
The extent of oxidative DNA damage in lymphocytes can be used as a biomarker of the level of oxidative stress in the body. The comet assay has been widely used to measure such damage. The aim of our study was to evaluate: i) the extent of the oxidative DNA damage in lymphocytes isolated from blood of female donors taken in early and late follicular phases [low (LE) and high (HE) concentration of 17bestradiol, respectively], ii) the susceptibility of these lymphocytes to hydrogen peroxide exposure, and iii) the protective ability of five plant extracts against the hydrogen peroxide-induced DNA damage. The effect of the catechol-Omethytransferase genotype (wild COMT H/H and mutated homozygote COMT L/L) of female donors was also analyzed. The amount of endogenous DNA damage was higher in HE lymphocytes as compared with LE ones, independently of the genotype. When lymphocytes were stratified by COMT genotype, the level of DNA damage was higher in L/L donors. The protective effect of pretreatment with plant extracts (1 and 10 µg/ml for 1 h) against the H2O2 (25 µM, 5 min. at 4°C)-induced oxidative DNA damage was observed only in H/H HE lymphocytes. In contrary, the plant extract pre-incubation enhanced the DNA damage in L/L HE lymphocytes. The plant extracts alone did not induce the DNA damage. The results showed that concentration of the circulating 17b-estradiol influenced the extent of endogenous oxidative DNA damage while the beneficial or hazardous effects of the plant extracts might depend on the COMT genotype and the estrogen level.
3
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The protective ability of the Mediterranean plant extracts against the oxidative DNA damage. The role of the radical oxygen species and the polyphenol content

59%
Kapiszewska M., Soltys E., Visioli F., Cierniak A., Zajac G.
Journal of Physiology and Pharmacology. Supplement
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2005
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tom 56
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nr 1
183-197
The polyphenol plant extracts content seems to be responsible for the scavenging activity of the reactive oxygen species (ROS), resulting in protection against DNA damage induced by the oxidative stress. This assumption was verified analyzing the effect of six Mediterranean plant extracts (Crepis vesicaria L, Origanum heracleoticum, Scandix australis L, Amaranthus sp., Scolymus hispanicus L, Thymus piperella L) on the oxidative DNA damage induced in lymphocytes by H2O2 in relation to the polyphenolic content and the lymphocyte scavenging ability of ROS. The comet assay was used to evaluate oxidative DNA damage and the polyphenol content was analyzed by the Folin-Ciocalteu method. The fluorescence resulting from oxidation of ROS-sensitive dye, dihydrorofluorescein (DHF), was utilized as indicator of the ROS level. Pretreatment with all plant extracts produced the dose-dependent increase in the DNA protection up to the 0.2 µg/ml polyphenol content and the decrease above that dose. Only the Thymus piperella, similarly to quercetin, showed a strong positive correlation between the DNA protection and the polyphenol content, but negative correlation with ROS formation. In conclusion, the DNA protective ability of plant extracts seems to be related to the low polyphenol concentration and only to certain extent depends on the polyphenol ROS scavenging activity.
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