Epstein-Barr virus induces an oxidative stress during the early stages of infection in B lymphocytes, epithelial, and lymphoblastoid cell lines

The study investigates the direct effect of Epstein-Barr virus infection on the oxidative profile of in vitro cultivated human cells. For this purpose, a panel of human EBV target cells presenting heterogeneity in their cellular and culture types (epithelial cells or lymphocytes; primary culture or...

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Bibliographic Details
Published in:Molecular and cellular biochemistry 2008-06, Vol.313 (1-2), p.179-186
Main Authors: Lassoued, Saloua, Ben Ameur, Randa, Ayadi, Wajdi, Gargouri, Bochra, Ben Mansour, Riadh, Attia, Hammadi
Format: Article
Language:English
Subjects:
B-Lymphocytes - enzymology
B-Lymphocytes - virology
Biochemistry
Biomedical and Life Sciences
Cardiology
Catalase - metabolism
Cell Line
Cellular biology
DNA, Viral - analysis
DNA, Viral - genetics
Enzymes
Epithelial Cells - enzymology
Epithelial Cells - virology
Epstein-Barr virus
Epstein-Barr Virus Infections - metabolism
Genome, Viral - genetics
Herpesvirus 4, Human - genetics
Herpesvirus 4, Human - metabolism
Heterogeneity
Humans
Infections
Life Sciences
Lipid Peroxidation
Lipids
Lymphocytes
Malondialdehyde - metabolism
Medical Biochemistry
Oncology
Oxidation
Oxidative Stress
Peroxidation
Studies
Superoxide Dismutase - metabolism
Viruses
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Summary:The study investigates the direct effect of Epstein-Barr virus infection on the oxidative profile of in vitro cultivated human cells. For this purpose, a panel of human EBV target cells presenting heterogeneity in their cellular and culture types (epithelial cells or lymphocytes; primary culture or continuous cell culture) was selected. These cells are purified human B lymphocytes, DG75, 293, and HepG2 cell lines. The oxidative stress was evaluated during the early stages of infection (2, 12, and 24 h) by measuring malondialdehyde, the end product of the lipid peroxidation, as well as the activities of two antioxidant enzymes: catalase and superoxide dismutase. The obtained results were compared with those of the untreated cells and the K562 cell line which has no interaction with EBV. The incubation of the different target cells with EBV induced an oxidative stress in the purified B lymphocytes, DG75, and 293, but not in HepG2 and K562. This oxidative stress was highlighted by an increase in MDA level (P < 0.05), which began 2 h after the addition of the virus and persisted after 12 and 24 h. Simultaneously, a decrease in catalase and superoxide dismutase activities was observed (P < 0.05), suggesting an alteration of the molecular mechanisms promoting cellular resistance to reactive oxygen species (ROS). The efficiency of EBV infection, assessed by viral DNA PCR amplification, was confirmed in 293 and DG75 but not in HepG2, which was in total concordance with their oxidative profiles. In conclusion, the EBV infection of B and epithelial cells leads to the establishment of an oxidative stress which can play a key role during the viral transformation.
ISSN:0300-8177
1573-4919
DOI:10.1007/s11010-008-9755-z