strongly suggests that HHV6 infection interferes with GSR activity and thus causes an imbalance in the detoxification of ROS. Our findings of a role of ROS and GSH levels in the competition between virus and Chlamydia provide a first insight into the mechanism by which chlamydial persistence is induced in these co-infections. We are just beginning to understand how the co-evolution of one of the most prevalent human pathogenic bacteria and viruses has affected their survival and replication strategies, but also their infective properties while occupying similar niches inside the cell. The Chlamydia – HHV6 interaction may thus provide a paradigm for a so far unrecognized close interaction of obligate intracellular bacteria and viruses. Materials and Methods Cell Culture and Virus Stock Preparation HSB2 cells and HHV6A viral particles were kindly provided by Prof. Harald zur Hausen. HUVEC cells were purchased from ENZO life sciences, Germany. Molt3 cells, CiHHV6A cell lines and HHV6B viral particles were kindly provided by the HHV6 foundation, USA. HeLa, HSB2, Molt3 and CiHHV6A cells were grown in RPMI 1640 media and 5% fetal bovine serum at 37uC and 5% CO2. Primary HUVEC were grown in endothelial cell growth medium with added growth additives. HHV6A and HHV6B were BIX-01294 chemical information infected and propagated in HSB2 and Molt3 cells respectively without any antibiotics. PBMC Isolation Fresh PBMCs were first separated from whole blood using Histopaq1077 solution using manufacturer’s instructions. 19770292 Briefly, freshly collected blood was diluted 2 times with PBS and layered carefully onto 1 volume 17876302 of Histopaq1077 solution in a falcon tube without mixing the solutions. PBMCs were collected after centrifugation at 6006g for 30 min at room temperature without applying brake. Cells were washed 3 times with 25 volumes of PBS and were kept in RPMI 1640 media with 5% fetal bovine serum and 5 mg/ml of phytohemagglutinin at 37uC and 5% CO2. PHA stimulation was used to induce HHV6 infection in PBMCs. Isolated PBMCs were cultured on a plastic culture disc for 48 h to separate monocytes from rest of the blood cells. Separated adherent monocytes were further cultured for 57 days in presence of 50 ng/ml macrophage colony stimulating factor to allow complete differentiation into macrophages. Both the adherent macrophage fraction and the PBMC fractions were infected with Chlymdia and/or HHV6 separately. Chlamydia Infection and Co-infection The preparation of chlamydial stocks has been described previously. One day before infection, epithelial cells were seeded in 6 or 12-well plates to reach sub-confluency. Cell media was replaced by fresh medium containing Chlamydia or were left uninfected. Cells were incubated at 35uC and 5% CO2 for 2.5 h before the medium was replaced by fresh cell culture medium for further incubation. HSB2 cells, CiHHV6A cells and PBMCs were infected with C. trachomatis at an MOI of 2 either in an Eppendorf tube or on a culture plate and were centrifuged for 1 h at 37uC at 1200g. Cells were washed 3 times with PBS and were grown in fresh RPMI 1640 media with 5% FBS. For all co-infection experiments, both HHV6 and Chlamydia were added to the cells at the same time unless otherwise mentioned. For some of the experiments, viral particles were inactivated by UV exposure for 2 h prior to co-infection and were added simultaneously with Chlamydia. Infectivity Assay 48 h p.i., cells were washed once with PBS and lysed by a freeze-thaw cycle followed by pipetting the