In vivo Downregulation of MHC Class I Molecules by HCMV Occurs During All Phases of Viral Replication but Is Not Always Complete.

Based on cell culture data, MHC class I downregulation by HCMV on infected cells has been suggested as a means of immune evasion by this virus. In order to address this issue in vivo, an immunohistochemical analysis of tissue sections from biopsy and autopsy materials of HCMV infected organs was performed. HCMV antigens from the immediate early, early, and late phase of viral replication, and cellular MHC class I molecules were detected simultaneously or in serial sections by immuno-peroxidase and immuno-alkaline phosphatase techniques. Investigated organs included lung, gastrointestinal tract, and placenta. Colocalization of MHC molecules with sites of viral replication as well as MHC expression in individual infected cells were analyzed. To detect immune effector cells at sites of viral replication, leukocytes, CD8+ lymphocytes, and HCMV antigens were stained in serial sections. While strong MHC class I expression was detected in the cells surrounding infected cells, it appeared downregulated in the majority of infected cells themselves, particularly in the late replication phase. Despite significantly reduced MHC class I signals on infected cells, sites of infection were infiltrated by inflammatory cells that consisted predominantly of CD8+ lymphocytes. The extent of inflammatory infiltrates was negatively correlated with the extent of HCMV infected cells. Taken together, our findings indicate that HCMV can downmodulate MHC class I expression in vivo, whereas cytokines originating from infiltrating immune effector cells probably up regulates MHC class I expression in noninfected bystander cells. The presence of cytotoxic lymphocytes in close contact to infected cells may reflect control of viral spread by these cells despite MHC class I downmodulation.

Presentation of a Conserved Adenoviral Epitope on HLA-C*0702 Allows Evasion of Natural Killer but Not T Cell Responses.

Infection with adenovirus is a major cause of infectious mortality in children following hematopoietic stem-cell transplantation. While adoptive transfer of epitope-specific T cells is a particularly effective therapeutic approach, there are few suitable adenoviral peptide epitopes described to date. Here, we describe the adenoviral peptide epitope FRKDVNMVL from hexon protein, and its variant FRKDVNMIL, that is restricted by human leukocyte antigen (HLA)-C*0702. Since HLA-C*0702 can be recognized by both T cells and natural killer (NK) cells, we characterized responses by both cell types. T cells specific for FRKDVNMVL were detected in peripheral blood mononuclear cells expanded from eight of ten healthy HLA-typed donors by peptide-HLA multimer staining, and could also be detected by cultured interferon γ ELISpot assays. Surprisingly, HLA-C*0702 was not downregulated during infection, in contrast to the marked downregulation of HLA-A*0201, suggesting that adenovirus cannot evade T cell responses to HLA-C*0702-restricted peptide epitopes. By contrast, NK responses were inhibited following adenoviral peptide presentation. Notably, presentation of the FRKDVNMVL peptide enhanced binding of HLA-C*0702 to the inhibitory receptor KIR2DL3 and decreased NK cytotoxic responses, suggesting that adenoviruses may use this peptide to evade NK responses. Given the immunodominance of FRKDVNMVL-specific T cell responses, apparent lack of HLA-C*0702 downregulation during infection, and the high frequency of this allotype, this peptide epitope may be particularly useful for adoptive T cell transfer therapy of adenovirus infection.

Human CD8(+) T Cells Target Multiple Epitopes in Respiratory Syncytial Virus Polymerase.

Respiratory syncytial virus (RSV) infection is a serious health problem in young children, immunocompromised patients, and the elderly. The development of novel prevention strategies, such as a vaccine to RSV, is a high priority. One strategy is to design a peptide-based vaccine that activates appropriate CD8(+) T-cell responses. However, this approach is limited by the low number of RSV peptide epitopes defined to date that activate CD8(+) T cells. We aimed to identify peptide epitopes that are presented by common human leukocyte antigen types (HLA-A*01, -A*02, and -B*07). We identify one novel HLA-A*02-restricted and two novel HLA-A*01-restricted peptide epitopes from RSV polymerase. Peptide-HLA multimer staining of specific T cells from healthy donor peripheral blood mononuclear cell, the memory phenotype of such peptide-specific T cells ex vivo, and functional IFNγ responses in short-term stimulation assays suggest that these peptides are recognized during RSV infection. Such peptides are candidates for inclusion into a peptide-based RSV vaccine designed to stimulate defined CD8(+) T-cell responses.

Urinary Neutrophil Gelatinase-Associated Lipocalin (NGAL) and proteinuria predict severity of acute kidney injury in Puumala virus infection.

BACKGROUND: Nephropathia epidemica (NE) is a mild form of hemorrhagic fever with renal syndrome (HFRS) that is caused by the Puumala virus. Periodic outbreaks have been described in endemic areas, with a substantial number of previously healthy individuals developing acute kidney injury (AKI). There is a considerable diversity in the clinical course of the disease, and few patients require renal replacement therapy. METHODS: We tested whether urinary neutrophil gelatinase associated lipocalin (uNGAL), urine albumin/creatinine ratio (uACR), urine protein/creatinine ratio (uPCR), urine dipstick protein, C-reactive protein, procalcitonin, leukocyte and platelet count, determined on admission to the hospital, can predict the severity of AKI. Sixty-one patients were analyzed during admission in the emergency department. RESULTS: The variables most strongly associated with peak plasma creatinine concentration were uNGAL (ß = 0.70, p <0.0001), uPCR (ß = 0.64, p = 0.001), uACR (ß = 0.61, p = 0.002), and dipstick proteinuria (ß = 0.34, p = 0.008). The highest AUC-ROC to predict stage 3 AKI according to the acute kidney injury network's (AKIN) classification was seen for uNGAL (0.81, p = 0.001). CONCLUSION: uNGAL accurately predicts the severity of AKI in NE. This could help emergency room physicians predict disease severity and allow for initial risk stratification.

Identification of a Novel Immunodominant HLA-B*07: 02-restricted Adenoviral Peptide Epitope and Its Potential in Adoptive Transfer Immunotherapy.

Adenovirus infections of immunocompromised patients, particularly following allogeneic hematopoietic stem cell transplantation, are associated with morbidity and mortality. Immunotherapy by adoptive transfer of hexon-specific and penton-specific T cells has been successfully applied, but many approaches are impeded by the low number of HLA class I-restricted adenoviral peptide epitopes described to date. We use a novel method to identify naturally presented adenoviral peptide epitopes from infected human cells, ectopically expressing defined HLA, using peptide elution and liquid chromatography-mass spectrometry analysis. We show that the previously described HLA-A*01:01-restricted peptide epitope LTDLGQNLLY from hexon protein is naturally presented, and demonstrate the functionality of LTDLGQNLLY-specific T cells. We further identify a novel immunodominant HLA-B*07:02-restricted peptide epitope VPATGRTLVL from protein 13.6 K, and demonstrate the high proliferative, cytotoxic, and IFN-γ-producing capacity of peptide-specific T cells. Lastly, LTDLGQNLLY-specific T cells can be detected ex vivo following adoptive transfer therapy, and LTDLGQNLLY-specific and VPATGRTLVL-specific T cells have memory phenotypes ex vivo. Given their proliferative and cytotoxic capacity, such epitope-specific T cells are promising candidates for adoptive T-cell transfer therapy of adenovirus infection.

Identification of newly detected, drug-related HCMV UL97- and UL54-mutations using a modified plaque reduction assay.

BACKGROUND: Drug-resistant cytomegalovirus causes major problems in immunocompromised patients and is due to mutations in the UL97-gene (phosphotransferase) and/or the UL54-gene (polymerase). OBJECTIVE: Three previously unknown UL97-mutations (E596D/Y and I610T), one UL54 single point mutation (D515E) and a UL54 triple mutation (D515E+L516M+I521T) were characterized for drug-resistance by marker transfer analysis using BAC-technology. STUDY DESIGN: Mutations were introduced into the bacterial artificial chromosome TB40-BACKL7-UL32EGFP. In addition, mutations M460V (UL97) and I521T (UL54) served as drug-resistant control. Phenotypic resistance testing was performed by a modified plaque reduction assay using a mixture of infected fibroblasts and uninfected ARPE-19 cells which improved formation of clearly definable plaques considerably. RESULTS: Resistance testing showed ganciclovir (GCV)-resistance for UL97-mutations I610T and E596Y while mutation E596D was drug-sensitive. UL54-mutation D515E was resistant to GCV. The virus strain containing the UL54 triple mutation conferred cross-resistance to GCV and cidofovir (CDV). None of the mutations interfered with normal growth kinetics of the virus. CONCLUSIONS: New mutations in the UL97- and UL54-gene of HCMV are still detected continuously. Furthermore, several mutations occurring in the same codon often show divergent phenotypes and the accumulation of multiple mutations in one virus strain may lead to increased or decreased drug-resistance. Therefore, characterization of newly detected mutations by marker transfer analysis is essential to confirm that genotypically detected mutations can produce phenotypic resistance. These results allow reliable interpretation of fast genotypic methods generally used in diagnostics.

Antiviral Drug- and Multidrug Resistance in Cytomegalovirus Infected SCT Patients.

In pediatric and adult patients after stem cell transplantation (SCT) disseminated infections caused by human cytomegalovirus (HCMV) can cause life threatening diseases. For treatment, the three antivirals ganciclovir (GCV), foscarnet (PFA) and cidofovir (CDV) are approved and most frequently used. Resistance to all of these antiviral drugs may induce a severe problem in this patient cohort. Responsible for resistance phenomena are mutations in the HCMV phosphotransferase-gene (UL97) and the polymerase-gene (UL54). Most frequently mutations in the UL97-gene are associated with resistance to GCV. Resistance against all three drugs is associated to mutations in the UL54-gene. Monitoring of drug resistance by genotyping is mostly done by PCR-based Sanger sequencing. For phenotyping with cell culture the isolation of HCMV is a prerequisite. The development of multidrug resistance with mutation in both genes is rare, but it is often associated with a fatal outcome. The manifestation of multidrug resistance is mostly associated with combined UL97/UL54-mutations. Normally, mutations in the UL97 gene occur initially followed by UL54 mutation after therapy switch. The appearance of UL54-mutation alone without any detection of UL97-mutation is rare. Interestingly, in a number of patients the UL97 mutation could be detected in specific compartments exclusively and not in blood.

Dynamics of coexisting HCMV-UL97 and UL54 drug-resistance associated mutations in patients after haematopoietic cell transplantation.

BACKGROUND: Resistance to antiviral drugs can be a severe problem in transplant recipients. Mutations in the HCMV phosphotransferase-gene (UL97) and the polymerase-gene (UL54) are responsible for resistance against ganciclovir (GCV), cidofovir (CDV) and foscarnet (PFA). Most frequently mutations in the UL97-gene are associated with resistance to GCV. Resistance against PFA and CDV is associated to mutations in the UL54-gene. There are only few reports about multidrug-resistance with mutations in both genes in patients after allogeneic haematopoietic cell transplantation (HCT). OBJECTIVES: To asses retrospectively the role of UL97/UL54-mutations for clinical deterioration. STUDY DESIGN: We present here three patients after HCT developing multidrug-resistance with coexisting UL97 and UL54-mutations. Genotypical resistance screening was done with restriction-fragment-length-polymorphism (RFLP), sequencing of UL97/UL54, and LightCycler real-time PCR. Phenotyipcal testing was performed by a cell-associated plaque-reduction-assay. Plasma viral-load (VL) was determined longitudinally using Roche Cobas-Amplicor-System (Roche Diagnostics). In one case VL was also correlated to different ratios of coexisting UL97-wildtype and mutant variants. RESULTS: All three patients developed multidrug resistant HCMV-infections with one or more UL97 and UL54-mutation detected by RFLP, sequencing and LightCycler-analysis. Two out of three patients showed biphasic VL kinetics with manifestation of UL97 drug-resistance prior/or at peak VL. UL54-mutations emerged also in all three patients either at increasing VL levels of ≥10(5)copies/ml or at peak VL. CONCLUSIONS: The development of coexisting HCMV UL97 and UL54-mutations conferring drug-resistance after HCT is not strictly associated with fatal outcome in one of our three patients. Manifestation of drug resistant combined UL97/UL54-mutations occurred prior to a second VL peak under (V)GCV/PFA co-treatment.

UL74 of human cytomegalovirus reduces the inhibitory effect of gH-specific and gB-specific antibodies.

The human cytomegalovirus (HCMV) glycoproteins gH (UL75) and gL (UL115) can form complexes with gO (UL74) or with proteins of the UL128-UL131A locus. Deletion of gO abolishes cell-free virus transmission and renders cell-associated virus transmission in fibroblasts more sensitive to inhibition by human anti-HCMV serum. To test whether the latter effect is specific for gO, we compared mutants with deletions in UL74, UL99 and the UL128-131A locus regarding their sensitivity to anti-HCMV antibodies. UL74 deletion mutants were more sensitive to a further restriction by polyspecific or gH-specific antibodies than control mutants, showing that gO specifically protects focal growth against inhibitory antibodies. This effect was not confined to gH-specific antibodies, as UL74 deletion mutants were also inhibited by an anti-gB antibody. In conclusion, gO specifically promotes focal spread in the presence of gH and gB antibodies, thus contributing to the ability of HCMV to resist the host's immune response.

CD209/DC-SIGN mediates efficient infection of monocyte-derived dendritic cells by clinical adenovirus 2C isolates in the presence of bovine lactoferrin.

Adenovirus often causes respiratory infection in immunocompromised patients, but relevant attachment receptors have largely not been defined. We show that the antiviral protein bovine lactoferrin enhances infection of monocyte-derived dendritic cells (MDDC) by adenovirus species C serotype 2 (2C) isolates. Under the same conditions infection of MDDC by human( )cytomegalovirus was reduced. Adenoviral infection was prominently enhanced by bovine but not human lactoferrin, and was not prominently enhanced using blood monocyte-derived macrophages, suggesting that the relevant receptor is expressed on MDDC. Infection of MDDC in the presence of bovine lactoferrin was blocked by mannan, and an antibody to CD209/DC-SIGN but not isotype control or CD46 antibodies. Lastly, U937 macrophages ectopically expressing CD209/DC-SIGN, but not parental U937 cells, were efficiently infected by adenovirus 2C in the presence of bovine lactoferrin. These results may provide a tool, given the high efficiency of infection, to dissect responses by myeloid cells to clinical adenovirus isolates.

The role of cytomegalovirus infection and disease in pediatric bone marrow transplant recipients in Mexico City in the context of viral drug resistance.

We aimed to identify those pediatric patients undergoing ABMT with CMV EOD who developed GCV resistance. Forty-seven patients were analyzed following ABMT. Prospective post-transplant CMV monitoring was performed weekly for the detection of viral leukocyte DNAaemia, viral plasma DNAaemia, and viral DNAuria by PCR. Plasma DNAaemia was confirmed from whole blood by the detection of CMV pp67 late mRNA using NASBA technology. In the cases of persistence of viral DNA in plasma, and positive viral RNA detection in blood, CMV drug resistance screening by comprehensive PCR-based RFLP and sequencing of the viral UL97 gene were performed retrospectively. Thirty of the 47 (63.82%) patients showed active CMV infection with 27/30 (74.4%) patients belonging to the D+R+ group and 25/30 with proven viral replication. In total, 2/30 (6.6%) children developed CMV pneumonia proven by immunohistochemistry. Screening of the viral UL97 gene revealed in one of these two cases (1/30, 3.3%) the simultaneous presence of two point mutations in codon 460 (M460V, M460I) conferring GCV resistance. The CMV seroprevalence (81%) and the incidence of active infection (63.8%) in Mexican children undergoing ABMT are very high.

Dendritic cell vaccination in an allogeneic stem cell recipient receiving a transplant from a human cytomegalovirus (HCMV)-seronegative donor: induction of a HCMV-specific T(helper) cell response.

BACKGROUND AIMS: In the absence of a protective immune response, human cytomegalovirus (HCMV) infection remains a life-threatening complication after allogeneic stem cell transplantation (SCT), especially in recipients of grafts from HCMV-seronegative donors. After allogeneic SCT from a seronegative donor, prolonged and severe immune deficiency often leads to infectious complications. Vaccination with antigen-loaded dendritic cells (DC) has been shown to be a potent approach for the induction of antigen-specific cytotoxic T-cell responses in vivo. For protection from subsequent HCMV reactivation, a sustained immune response is necessary, including antigen-specific CD4(+) T cells. METHODS: We report the case of an 18-year-old girl with high-risk acute lymphoblastic leukemia that received an allogeneic SCT in CR2. After an HCMV infection, the graft was rejected and she received a second transplant from an HLA-mismatched, HCMV-seronegative family donor. She was treated with pp65-pulsed monocyte-derived DC at day 200 post-SCT, using a recombinant pp65 protein. Until day 200 post-SCT, HCMV reactivated six times with emerging viral resistance to antiviral chemotherapy. RESULTS: After vaccination with protein-pulsed DC, an induction and expansion of HCMV-specific T(helper) cells and cytotoxic T lymphocytes was observed, associated with a sustained clearance of the HCMV viremia. Antiviral treatment could be tapered without recurrence of viremia within the first year post-SCT. CONCLUSIONS: pp65-pulsed DC could induce antigen-specific T-cell responses even after a SCT from an HCMV-seronegative donor. After vaccination with pp65-pulsed DC, a sustained antigen-specific T-cell response prevented concurrent HCMV viremia. Emergence of antigen-specific T(helper) cells may be essential for a sustained, functional T-cell response post-SCT.

Dendritic cells are susceptible to infection with wild-type adenovirus, inducing a differentiation arrest in precursor cells and inducing a strong T-cell stimulation.

Adenovirus infection after stem cell transplantation is a significant cause of morbidity and mortality, especially in children. A robust T-cell response induced by dendritic cells (DC) is crucial for clearing the virus, suggesting their pivotal role for the response to human adenoviruses (HAdV). Despite the widespread use of adenoviral vectors, the properties and kinetics of HAdV infection of DC have not been addressed yet. We show that a recent clinical HAdV, subgenus C/serotype 2 (strain BB2000-61), infects cells of the myeloid lineage. Infected DC produce early and late viral antigens and show an altered expression of surface markers. Infection of monocytes renders them refractory to differentiation into DC. Additionally, HAdV-infected DC are strong stimulators of CD8+ T cells. In summary, HAdV seems to manipulate the immune response by infection of DC and possibly uses the infection of monocytes as a means to escape recognition by T cells.

Dynamics of the emergence of a human cytomegalovirus UL97 mutant strain conferring ganciclovir resistance in a pediatric stem-cell transplant recipient.

Stem-cell transplant recipients are at risk of developing ganciclovir-resistant human cytomegalovirus (HCMV) infection caused by mutations in the viral UL97 gene. Knowledge of the relative proportions of coexisting HCMV wild-type and mutant strains may contribute to a better understanding of the dynamics of in vivo mutant strain selection under ganciclovir. Currently, genotype resistance screening for UL97 is routinely performed by restriction fragment length polymorphism detection and sequencing. We present here the longitudinal course of a pediatric recipient of an allogeneic stem-cell transplant infected with a ganciclovir-resistant HCMV strain. EDTA-treated blood samples were analyzed longitudinally. The patient acquired a primary HCMV infection shortly before transplantation and reactivated the virus following allogeneic hematopoietic stem cell transplantation, thus receiving an intensive antiviral treatment schedule. Three different methods for UL97 mutation analysis, restriction fragment length polymorphism detection, sequencing, and a new, real-time PCR approach were performed. In conclusion, for our pediatric patient, during peak viral load, the UL97 wild-type strain predominates, while during clinical deterioration with low viral load, the predominant mutant strain persists.

Clinical grade generation of hexon-specific T cells for adoptive T-cell transfer as a treatment of adenovirus infection after allogeneic stem cell transplantation.

Adenovirus infection after allogeneic hematopoietic stem cell transplantation is still causing significant morbidity and mortality, especially in children. It has been demonstrated that a sufficient host T-cell response is essential to clear the virus. Adoptive transfer of specific T-cell immunity from the donor to the recipient has become a new treatment option for patients with systemic adenoviral infection who lack specific T-cell responses. The adenoviral hexon protein was shown to be an immunodominant T-cell target. We describe here a Good Manufacturing Practice-compatible generation of hexon-specific T cells developed by isolating interferon-gamma-secreting T cells after stimulation of mononuclear cells ex vivo with hexon protein. Phenotypical and functional characterization of the generated, specific T-cell product resulted in a mixed population of CD4 and CD8-positive T cells with an intermediate effector memory phenotype. Isolated hexon-specific T cells showed high expansion potential in vitro and specific cytotoxicity. T-cell lines, directed against type 5 hexon protein showed good crossreactivity against viral strains from other adenovirus species. The availability for isolation of hexon-specific T cells among 76 hematopoietic stem cell transplantation donors showed in > 72% a sufficient T-cell response (0.05% of T cells). In conclusion, Good Manufacturing Practice-grade selection of adenovirus-specific T cells for adoptive immunotherapy by hexon-induced secretion of interferon-gamma has been established. Adoptive T-cell transfer could potentially restore T-cell immunity against adenovirus after allogeneic stem cell transplantation.

UL74 of human cytomegalovirus contributes to virus release by promoting secondary envelopment of virions.

The glycoprotein (g) complex gH/gL represents an essential part of the herpesvirus fusion machinery mediating entry of cell-free virions and cell-associated viral spread. In some herpesviruses additional proteins are associated with gH/gL contributing to the cell tropism of the respective virus. Human cytomegalovirus (HCMV) gH/gL forms complexes with either gO (UL74) or proteins of the UL128-131A gene locus. While a contribution of UL128-131A to endothelial cell tropism is known, the role of gO is less clear. We studied the role of gH/gL-associated proteins in HCMV replication in human foreskin fibroblasts (HFF) and human umbilical vein endothelial cells (HUVEC). Deletions of UL74 alone or in combination with mutations of the UL128-131A gene region were introduced into bacterial artificial chromosome vectors derived from the endotheliotropic strain TB40/E. Deletion of UL74 caused a profound defect regarding virus release from infected HFF and HUVEC. Large numbers of capsids accumulated in the cytoplasm of infected HFF but failed to acquire an envelope. Clear cell type differences were observed in the cell-associated spread of the UL74-defective virus. In HFF, focal growth was severely impaired, whereas it was normal in HUVEC. Deletion of UL131A abolished focal growth in endothelial cells. UL74/UL128-131A dual mutants showed severely impaired reconstitution efficiency. Our data suggest that gO plays a critical role in secondary envelopment and release of cell-free virions independent of the cell type but affects cell-associated growth specifically in HFF, whereas UL128-131A contributes to cell-associated spread in HFF and HUVEC.

Dendritic cell vaccination in allogeneic stem cell recipients: induction of human cytomegalovirus (HCMV)-specific cytotoxic T lymphocyte responses even in patients receiving a transplant from an HCMV-seronegative donor.

Vaccination with peptide-loaded dendritic cells (DCs) has been shown to be potent immunostimulatory therapy for the management of serious infections. After allogeneic stem cell transplant (SCT), a prolonged and severe immune deficiency often leads to infectious complications. Human cytomegalovirus (HCMV) infection is one such life-threatening complication after allogeneic SCT. A phase 1/2 study including 24 allogeneic SCT recipients at high risk for HCMV disease was performed to analyze the feasibility and efficacy of vaccination with HCMV peptide-loaded DCs. No acute adverse effects were observed, and a significant clinical benefit could be demonstrated in comparison to our historical control group. An induction or expansion of HCMV-specific cytotoxic T lymphocytes was observed in 5 patients after DC vaccination.

Effect of serum and CTL on focal growth of human cytomegalovirus.

BACKGROUND: In immunocompromised patients only cytotoxic T-lymphocytes (CTL) but not antiviral antibodies appear to be efficient in control of human cytomegalovirus (HCMV) infection. This is contrasted by the well-documented neutralising activity of patient sera against standard HCMV strains. OBJECTIVE: We tested the hypothesis that a cell-culture model based on a recent clinical HCMV isolate would more accurately approximate the clinical situation and provide an explanation for the failure of neutralising antibodies in efficient restriction of HCMV infection. METHODS: Sera from five bone marrow transplant recipients with or without prolonged HCMV replication were analysed by an enzyme-linked immunoassay for their capacity to neutralise cell-free HCMV preparations. The inhibitory effect of these sera on viral cell-to-cell-spread was then quantified by focus expansion assays using a recent clinical HCMV-isolate and was finally compared to the inhibitory effect of HCMV-specific CTL lines. RESULTS: Prolonged HCMV replication occurred in three patients despite high titres of neutralising antibodies. In contrast to the strong inhibitory effect on cell-free HCMV, their sera could not inhibit the focal growth of a recent cell-associated HCMV isolate, whereas CTL clones directed against pUL123 or pUL83 of HCMV effectively limited focal expansion of the clinical isolate in fibroblast culture. CONCLUSIONS: Focus expansion assays based on a cell-associated clinical HCMV isolate provide a model for the in vivo effectiveness of virus-specific CTL and neutralising antibodies. Our data support the assumption that due to their strict cell-association clinical HCMV strains are withdrawn from neutralising antibodies.

Macrophage cultures are susceptible to lytic productive infection by endothelial-cell-propagated human cytomegalovirus strains and present viral IE1 protein to CD4+ T cells despite late downregulation of MHC class II molecules.

The contribution of CD4(+) T cells to control of human cytomegalovirus (HCMV) has been shown and infected tissue macrophages might contribute to this response by antigen presentation. As shown previously, CD4(+) T cells recognize HCMV immediate-early antigen IE1 on glioblastoma cells manipulated to express MHC class II molecules. Here, the possible interference of virus-induced MHC class II downmodulation with the presentation of IE1 by natural target cells was analysed. The capacity of IE1-specific CD4(+) T-cell clones to recognize HCMV-infected monocyte-derived macrophages was tested. Various HCMV strains were used to achieve efficient infection of macrophages. Activation of CD4(+) T cells by infected macrophages was evaluated at different time points after infection. Endothelial-cell-adapted HCMV strains efficiently infected cultured human macrophages. However, the immediate-early and early phases of replication were prolonged. Infected cells entered the late replication phase only after 3 days of infection, which was associated with downmodulation of MHC class II molecules at the surface of infected cells. Strong stimulation of IE1-specific CD4(+) T cells resulted from endogenous de novo antigen production and presentation by infected macrophages during the first 3 days of virus replication, despite MHC class II downmodulation in the late replication phase. Therefore, infected macrophages are assumed to contribute to the antiviral immune response in infected organs.

Safe adoptive transfer of virus-specific T-cell immunity for the treatment of systemic adenovirus infection after allogeneic stem cell transplantation.

During periods of immunosuppression, such as postallogeneic stem cell transplantation (SCT), patients are at significant risk for severe viral infections. Human adenovirus (HAdV) infection is a serious complication post-SCT, especially in children. Virus-specific T cells are essential for the clearance of HAdV, as antiviral chemotherapy has revealed limited success. We present feasibility data for a new treatment option using virus-specific donor T cells for adoptive transfer of immunity to patients with HAdV-infection/reactivation. Virus-specific donor T cells were isolated and infused into nine children with systemic HAdV infection after SCT. Isolation was based on gamma-interferon (IFN-gamma) secretion after short in vitro stimulation with viral antigen, resulting in a combination of CD4(+) and CD8(+) T cells. 1.2-50 x 10(3)/kg T cells were infused for adoptive transfer. Isolated cells showed high specificity and markedly reduced alloreactivity in vitro. Adoptive transfer of HAdV-specific immunity was successful in five of six evaluable patients, documented by a dose-independent and sustained in vivo expansion of HAdV-specific T cells, associated with a durable clearance/decrease of viral copies. T-cell infusion was well tolerated in all nine patients, except one case with graft-versus-host disease II of the skin. In conclusion, induction of a specific T-cell response through adoptive transfer was feasible and effective. When performed early in the course of infection, adoptive T-cell transfer may protect from HAdV-related complications.