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Protective Role of EGCG Against Malathion Induced Genotoxicity Using Human Lymphocytes
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AbstractBackground: Green tea (Camellia sinensis), which is the most common drink
across the world after water, has many antioxidant properties.
Epigallocatecin-3-gallate (EGCG) is a flavonoid which accounts for
33–50% of green tea solids. It functions as a powerful
antioxidant, preventing oxidative damage in healthy cells, with antiangiogenic
and antitumor activities and as a modulator of tumor cell response to
chemotherapy. Malathion is an organophosphate pesticide which is widely used in
agriculture, veterinary and industries. Oxidative stress has been identified as
one of malathion’s main molecular mechanisms. The purpose of this study
was to evaluate protective role of EGCG against malathion induced genotoxicity
using human lymphocyte model. Blood samples from 8 non-smoker healthy volunteers
with no history of chemotherapy were collected and divided into six groups:
Control, EGCG (50 µM), EGCG (20 µM), Malathion
(24 µM), EGCG (50 µM)+Malathion
(24 µM) and EGCG (20 µM)+Malathion
(24 µM). For genotoxicity assay, we employed micronuclei test.
For antioxidant capacity evaluation, GSH content and MDA levels were measured.
Malathion showed significant genotoxic damage compared to the intact
lymphocytes, however, treatment with EGCG at both concentrations were reduced
the genotoxic effect of malathion. Malathion induced lipid peroxidation, while
pre-treatment with EGCG at both concentrations, significantly protected the
lymphocytes against malathion induced lipid peroxidation. Malathion
significantly reduced GSH content, but pre-treatment with EGCG significantly
recovered GSH content. Overall this study demonstrated that EGCG (at both
concentrations) significantly prevents human lymphocytes against malathion
induced genotoxicity and oxidative damage.
Title: Protective Role of EGCG Against Malathion Induced Genotoxicity Using
Human Lymphocytes
Description:
AbstractBackground: Green tea (Camellia sinensis), which is the most common drink
across the world after water, has many antioxidant properties.
Epigallocatecin-3-gallate (EGCG) is a flavonoid which accounts for
33–50% of green tea solids.
It functions as a powerful
antioxidant, preventing oxidative damage in healthy cells, with antiangiogenic
and antitumor activities and as a modulator of tumor cell response to
chemotherapy.
Malathion is an organophosphate pesticide which is widely used in
agriculture, veterinary and industries.
Oxidative stress has been identified as
one of malathion’s main molecular mechanisms.
The purpose of this study
was to evaluate protective role of EGCG against malathion induced genotoxicity
using human lymphocyte model.
Blood samples from 8 non-smoker healthy volunteers
with no history of chemotherapy were collected and divided into six groups:
Control, EGCG (50 µM), EGCG (20 µM), Malathion
(24 µM), EGCG (50 µM)+Malathion
(24 µM) and EGCG (20 µM)+Malathion
(24 µM).
For genotoxicity assay, we employed micronuclei test.
For antioxidant capacity evaluation, GSH content and MDA levels were measured.
Malathion showed significant genotoxic damage compared to the intact
lymphocytes, however, treatment with EGCG at both concentrations were reduced
the genotoxic effect of malathion.
Malathion induced lipid peroxidation, while
pre-treatment with EGCG at both concentrations, significantly protected the
lymphocytes against malathion induced lipid peroxidation.
Malathion
significantly reduced GSH content, but pre-treatment with EGCG significantly
recovered GSH content.
Overall this study demonstrated that EGCG (at both
concentrations) significantly prevents human lymphocytes against malathion
induced genotoxicity and oxidative damage.
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