Immune control of human cytomegalovirus (HCMV) infection can be mediated by CD8 + cytolytic T lymphocytes (CTL). Adoptive transfer of antiviral CTL confers protection against HCMV reactivation and disease. The tegument protein pp65 and the immediate-early 1 protein (IE1) are recognized to be major CTL targets, even though during productive infection the viral immunoevasion proteins gpUS2-11 act to suppress major histocompatibility complex (MHC) class I-restricted antigen presentation. Thus it was not clear how infected cells could be labelled with antigenic peptides in the face of immunoevasion. We show here that the immunodominant peptide pp65 NLV was presented by MHC class I in cells infected with a gpUS2-11-competent virus. Presentation of pp65 NLV was still detectable at 96 h post-infection, although at low levels. Partial suppression of pp65 NLV presentation was dependent on the ability of the infecting strain to express gpUS2-11. MHC class I-restricted antigen presentation in HCMV-infected cells (encoding gpUS2-11) exhibited specificity for pp65-derived peptides, as infected fibroblasts did not present the IE1-derived nonapeptide IE1 TMY . Remarkably, infected cells could restore pp65 NLV peptide presentation after acid removal of MHC class I despite gpUS2-11 expression. This recovery was shown to be dependent on proteasome functionality. In contrast to IE1, pp65 peptides are loaded on MHC class I molecules to be transported to the cell surface at early and late times after infection in the face of gpUS2-11-mediated immunoevasion. pp65 is therefore the first example of an HCMV protein only incompletely subjected to gpUS2-11-mediated immunoevasion. INTRODUCTIONInfection with human cytomegalovirus (HCMV) affects more than 50 % of the human population. Individuals with immature or compromised immune defence functions are more likely to encounter severe clinical disease conditions. In healthy individuals, however, HCMV is normally efficiently controlled by the immune system (Pass, 2001), and in particular by HMCV-specific CD8 + cytoxic T lymphocytes (CTL) (Reddehase et al., 1985;Reusser et al., 1991). The CTL response is primed against short peptides that are proteolytically processed from intracellular viral proteins and presented on the cell surface by major histocompatibility complex (MHC) class I molecules (Kloetzel, 2004). For this, proteins are labelled by ubiquitination to be targeted to proteasomes for degradation. Peptides of appropriate length are released from proteasomes and processed further at their amino terminus by cytosolic aminopeptidases. Ultimately they are translocated to the endoplasmic reticulum (ER) by the transporter associated with antigen presentation (TAP), where they associate with MHC class I. In some instances, ER-resident proteases contribute to the trimming of antigenic peptides (reviewed by Kloetzel, 2004).The HCMV genome encodes over 150 proteins, which can potentially serve as target antigens for CTL (Chee et al., 1990). Recent studies showed that memory CTL isolated from HC...
Direct protein delivery is an emerging technology in vaccine development and gene therapy. We could previously show that subviral dense bodies (DB) of human cytomegalovirus (HCMV), a beta-herpesvirus, transport viral proteins into target cells by membrane fusion. Thus these non-infectious particles provide a candidate delivery system for the prophylactic and therapeutic application of proteins. Here we provide proof of principle that DB can be modified genetically. A 55 kDa fusion protein consisting of the green fluorescent protein and the neomycin phosphotransferase could be packed in and delivered into cells by recombinant DB in a functional fashion. Furthermore, transfer of protein into fibroblasts and dendritic cells by DB was efficient, leading to exogenous loading of the MHC-class I antigen presentation pathway. Thus, DB may be a promising basis for the development of novel vaccine strategies and therapeutics based on recombinant polypeptides.
Human cytomegalovirus (HCMV) has evolved strategies to counteract its surveillance by the immune system. Mitigation of antiviral immune responses is considered critical for establishment of viral latency and for spread. Recently, a gene encoding an interleukin-10 homologue (cmvIL-10) has been discovered in the HCMV genome. Using recombinant cmvIL-10, several mostly immunosuppressive functions of the molecule have been described. However, the role of cmvIL-10 in the context of viral infection was not addressed. To be able to analyze this issue, we generated cmvIL- 10-negative viral mutants. Using these mutants, we tested whether the expression of cmvIL-10 by infected cells would render bystander antigen-presenting cells less efficient in their capacity to present antigenic peptides in the context of MHC class I. To test this, CTL clones specific for the viral nonapeptides P65(495-503) and IE1(297-305) were used as tools. Culture supernatant from fibroblasts infected with cmv-IL10-negative viruses was supplemented with increasing concentrations of recombinant cmvIL-10. Treatment of human THP-1 cells with these conditioned media did not impair their capacity to present HCMV-derived nonapeptides in the context of MHC-class I, even when high concentrations of cmvIL-10 were used. To investigate whether close cell contact was important, fibroblasts were infected with either wild-type HCMV or cmvIL-10 null mutants and were cocultured with nonpermissive lymphoblastoid cell lines, serving as target cells. No correlation was found between the ability of HCMV strains to express the cmvIL-10 gene and the capacity of neighboring LCL to present peptides in the context of MHC class I. Consequently, we propose that cmvIL- 10 expressed in the context of HCMV infection has no direct impact on MHC class I-restricted antigen presentation of noninfected bystander cells.
Control of human cytomegalovirus (HCMV) infection is predominantly mediated by cytolytic CD8+ T lymphocytes (CTL). Among the roughly 200 HCMV-encoded polypeptides, the tegument protein pp65 (ppUL83) and the nonstructural IE1 protein are considered to be dominant CTL targets. Yet the importance of CTL against IE1 for protective immunity against HCMV reactivation and disease has remained elusive. Analyses have been difficult, as all MHC class I presented peptides of IE1 defined so far are located in parts of the protein that are variable between viral strains. In this study a conserved decameric peptide from IE1 (P6, IE1(354-363)) that bound to HLA-A2 was identified. Using peptide-pulsed, HLA-matched stimulator cells, CTL lines which recognized P6 after exogenous loading as well as after endogenous processing could repeatedly be generated. However, memory CTL directed against P6 were not readily detectable by ex vivo ELISPOT analysis in peripheral blood mononuclear cells of healthy seropositive individuals, indicating that this peptide represents a quantitatively subdominant determinant during latent HCMV infection. Using the conserved HLA-A2 presented peptide P6 will enable more detailed studies on the role of IE1-specific CTL in patients suffering from various HCMV-related disease conditions and investigation of the role of such cells for immune control of HCMV. Since IE1 is the first viral protein to be expressed after reactivation from latency, P6 may also serve as an important component of a future recombinant HCMV vaccine.
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