Infection with the human immunodeficiency virus type 1 (HIV-1) requires the presence of a CD4 receptor and a chemokine receptor, principally chemokine receptor 5 (CCR5). Homozygosity for a 32-bp deletion in the CCR5 allele provides resistance against HIV-1 acquisition. We transplanted stem cells from a donor who was homozygous for CCR5 delta32 in a patient with acute myeloid leukemia and HIV-1 infection. The patient remained without viral rebound 20 months after transplantation and discontinuation of antiretroviral therapy. This outcome demonstrates the critical role CCR5 plays in maintaining HIV-1 infection.
Changes of the peripheral blood cell count in patients with AN is a frequent observation but the peripheral blood cell count cannot predict the severity of bone marrow atrophy. All hematological and morphological alterations disappear completely and rapidly after sufficient refeeding.
Human cytomegalovirus (CMV) is a major cause of death after transplantation. The frequency of pp65-specific T cells was examined in 38 HLA-A2 þ stem cell recipients during the first year after transplantation. Patients were divided into four groups based on donor/recipientand dÀ/rÀ (n ¼ 5). Peripheral blood mononuclear cells were stimulated with the CMVpp65 peptide NLVPMVATV, and the specific T-cell frequency was assessed by interferon gamma (IFN-c) ELISPOT assay. Responding T cells were characterized by flow cytometry revealing a terminal differentiated effector phenotype. Surveillance of CMV infection was carried out by realtime polymerase chain reaction (n ¼ 26) or immunofluorescence (n ¼ 12). Infection was present in 7/9 dÀ/r þ high-risk patients, and CMV disease occurred exclusively in this group with delayed or absent virus-specific T-cell recovery. In contrast, 16/24 intermediate-risk patients showed CMV-specific T cells. Our data suggest that CMV infection and disease rates are elevated in high-risk patients with delayed CMV-specific T-cell immune reconstitution and lower in those with early recovery of T-cell immunity. We recommend preferring CMV seropositive donors for CMV seropositive recipients, as this should lead to durable CMV-specific T-cell responses soon after transplantation with consecutive protection from CMV disease.
Today, 30 years after the onset of the HIV pandemic, although treatment strategies have considerably improved, there is still no cure for the disease. Recently, we described a successful hematopoietic stem cell transplantation in an HIV-1–infected patient, transferring donor-derived cells with a natural resistance against HIV infection. These hematopoietic stem cells engrafted, proliferated, and differentiated into mature myeloid and lymphoid cells. To date, the patient has not required any antiretroviral treatment, more than 4 years after allogeneic transplantation. In the analysis of peripheral blood cells and different tissue samples, including gut, liver, and brain, no viral load or proviral DNA could be detected. Our report raises the hope for further targeted treatment strategies against HIV and represents a successful personalized treatment with allogeneic stem cells carrying a beneficial gene. However, this case has ignited a controversy regarding the question of whether this patient has achieved complete eradication of HIV or not. Here we give an update on open questions, unsolved aspects, and clinical consequences concerning this unique case.
We analyzed cytomegalovirus (CMV) infection risk factors and immune reconstitution kinetics in 89 patients after allogeneic stem cell transplantation (allo-SCT). The use of alemtuzumab for in vivo T cell depletion (TCD) had, besides the donor/recipient CMV serostatus, the strongest influence on the CMV infection risk in univariate and multivariate analyses. In comparison to without use of in vivo TCD, the CMV infection risk [hazard ratio (HR)] was 4.82-fold after TCD with alemtuzumab, but only 1.40-fold after TCD with antithymocyte globulin (ATG). Alemtuzumab strongly depressed CD4(+) and CD8(+) T cell reconstitution, whereas ATG only delayed CD4(+) T cell reconstitution. Considering the reconstitution kinetics of CD4(+) and CD8(+) T cells, CMV-specific CD8(+) T cells, NK cells and the IgG concentration, only a low day +60 NK cell count (< or =161 versus >161/microl) was significantly associated with CMV infection development (HR 2.92, p = 0.034). CMV-specific CD8(+) T cells were detected in 57% of patients with a CMV-seropositive donor, but in none of the patients with a CMV-seronegative donor on day +30 (p = 0.01). Our data indicate that the type of in vivo TCD (alemtuzumab or ATG) differentially influences both the CMV infection risk and CD4(+)/CD8(+) T cell reconstitution kinetics in patients after allo-SCT.
Although thymoglobulin and alemtuzumab are frequently used in hematopoietic stem cell transplantation (HSCT), little is known of their effects on NK cells, which mediate important functions in post-transplantation immunology. In the present study, we determined NK cell death in vitro using propidium iodide and Annexin V. The NK cell activity in 34 patients at day þ 30 after allogeneic HSCT was assessed using the CD107a assay. Alemtuzumab and thymoglobulin were similarly very potent in inducing NK cell death in vitro. Even in low concentrations (o1 lg/ml) the antibodies induced apoptosis and necrosis in a relevant percentage of NK cells (430%). However, the number of tumor reactive (CD107a þ ) NK cells was 13.16 per ll and 1.15 per ll (mean) in patients receiving T-cell depletion with 6 mg/kg thymoglobulin and in patients receiving 100 mg alemtuzumab, respectively (P ¼ 0.02). Although thymoglobulin and alemtuzumab are equally NK cell toxic in vitro, the recovery of NK cell frequency and anti-tumor reactivity is reduced in recipients of alemtuzumab. Our findings can be explained by a longer half-life of alemtuzumab as compared to active thymoglobulin under therapeutic conditions. Prolonged immunosuppression with increased risk of infections and tumor relapse are a potential threat to patients undergoing HCST and receiving alemtuzumab as T-cell depletion.
Primary infection and reactivation of human cytomegalovirus (CMV) remain a major problem in immunocompromised patients, frequently resulting in a life threatening CMV disease. Intravenous polyvalent (hyper)-immunoglobulins (IVIG) can be administered for therapy and prophylaxis of CMV infections. However, only limited data about the efficacy and mechanism of action of IVIG products against viral infections in vitro are available so far. In this study, the effect of IVIG on CMV infection in vitro was investigated using isolates from CMV-infected patients as well as the laboratory strains AD169 and TB40. A qualitative and quantitative comparison of five different commercially available IVIG products in different human cell lines was performed concerning their ability (1) to neutralize cell-free virus, (2) to inhibit cell-to-cell spread and cell-associated transmission and (3) to influence CMV mRNA levels. All IVIG tested exhibited a high neutralization activity in epithelial and endothelial cell cultures (50% inhibition dose <0.1 mg/ml). However, qualitative differences between the products could be demonstrated in neutralization tests using human embryonal lung fibroblasts (HELF). The IVIG products also significantly differed in their ability to inhibit cell-to-cell spread within an CMV-infected HELF monolayer displaying inhibition rates that varied between 61 and 100%. No correlation between the ability to neutralize cell-free virus and to inhibit cell-to-cell spread could be observed. The incubation with IVIG influenced the amount of CMV immediate early and late mRNA, as indicated by a significant reduction in CMV mRNA in infected epithelial cells after incubation with IVIG in a dose-dependent manner. This study suggests different antiviral functions of polyvalent IVIG and confirms their potential to inhibit a CMV infection in vitro, with profound differences between the hereby used IVIG products.
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