The frequencies of human cytomegalovirus (HCMV) protein‐specific CD8 T cells, identified by the presence of intracellular IFN‐γ, were measured by flow cytometry following stimulation of freshly isolated peripheral blood mononuclear cells (PBMC) with comprehensive peptide pools. These pools spanned the entire amino acid sequences of the HCMV pp65 and major immediate early (IE‐1) proteins and consisted of 15‐amino acid peptides with at least nine overlaps between neighboring peptides. As a result all potential CD8 T cell epitopes contained in these proteins were provided by the complete pools and, therefore, unlike with single epitopes, testing was independent of donor HLA type. Individual stimulating peptides from the same pools were identified in parallel experiments. Thus we found that our results with the complete pools using PBMC from 26 healthy HCMV‐seropositive donors were 100 % sensitive and specific with respect to predicting the presence of recognized epitopes in the respective proteins. In addition, cells from 15 renal transplant patients were tested with complete pools alone. While our results confirmed our previous contention that HCMV IE‐1 is an important CD8 T cell target, the technical improvement we made in order to address this question has clearly wider implications. Similar pools may be applied to examine the role of proteins from other pathogens, in autoimmune disease or following vaccination.
TNFalpha enhances the basal activity of the major Immediate Early (IE) enhancer/promoter of human cytomegalovirus (HCMV) in the immature premonocytic HL-60 cell line. The stimulatory effect of TNFalpha is mediated by induction of the transcription factor NF-kappaB, which specifically binds to the 18-bp repetitive sequence motif of the enhancer region. Complex formation could be competed by oligonucleotides representing the 18-bp sequence motif or the prototype NF-kappaB sequence of the immunoglobulin kappa gene. In gel mobility shift assays antisera specific to NF-kappaB p50 and p65 subunits were shown to react with the DNA-protein complex. Addition of the antioxidant PDTC blocked TNFalpha-mediated stimulation in a dose dependent manner. Electrophoretic mobility shift assays indicated that PDTC prevents NF-kappaB induction. Furthermore, it is suggested that protein kinases like PK-C are involved in the TNFalpha signal transduction pathway which leads to the activation of NF-kappaB and its binding to the HCMV IE enhancer in HL-60 cells. Our data are consistent with a role of TNFalpha in reactivation of latent HCMV infection in premonocytic cells.
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