WT1, PRAME, and PR3 mRNA Expression in Acute Myeloid Leukemia (AML).

Several tumor-associated antigens (TAAs) were recently identified, that could qualify as targets for immunotherapy, they could qualify (on RNA-level) for monitoring of tumor load. Here, we studied the expression levels of the immunogenic antigens PRAME (preferentially expressed antigen of melanoma), WT1 (Wilms' tumor gene), and PR3 (proteinase 3) on myeloid blasts by real-time quantitative polymerase chain reaction and correlated these data to the state and course of disease and to the defined subgroups of acute myeloid leukemia (AML). At first diagnoses, 41 of 47 patients tested showed overexpression of PRAME (87%), 38 of WT1 (81%), and 26 of PR3 (55%), with the highest expression levels for PRAME (2048-fold), followed by WT1 (486-fold) and PR3 (196-fold). Thereby, with 70%, the most frequent combination at first diagnoses was detected to be PRAME and WT1 (33/47 patients). Overall, 21 patients (45%) revealed overexpression for all 3 TAAs. Moreover, the highest expression levels of PRAME were found to be correlated with the FAB subtype M5, cytogenetic unfavorable risk groups, and AMLs arising from myelodysplasia (secondary AML; P=0.02). To compare TAA expression levels in the course of disease, expression data were calculatory adjusted to 100% blasts, revealing a relative increase in the PRAME expression levels during the course of persistent disease (3/4 cases). Independent of stage of disease, by trend, higher TAA expression levels were found on blasts derived from peripheral blood than those derived from the bone marrow. In conclusion, it is suggested that vaccine strategies for cancer immunotherapy should comprise different TAA peptides anticipating the diverse TAA expression levels on blasts evolving during the course of disease or treatment.

CD4(+)and CD8(+)T-cell reactions against leukemia-associated- or minor-histocompatibility-antigens in AML-patients after allogeneic SCT.

T-cells play an important role in the remission-maintenance in AML-patients (pts) after SCT, however the role of LAA- (WT1, PR1, PRAME) or minor-histocompatibility (mHag, HA1) antigen-specific CD4(+) and CD8(+)T-cells is not defined. A LAA/HA1-peptide/protein stimulation, cloning and monitoring strategy for specific CD8(+)/CD4(+)T-cells in AML-pts after SCT is given. Our results show that (1) LAA-peptide-specific CD8+T-cells are detectable in every AML-pt after SCT. CD8(+)T-cells, recognizing two different antigens detectable in 5 of 7 cases correlate with long-lasting remissions. Clonal TCR-Vß-restriction exemplarily proven by spectratyping in PRAME-specific CD8(+)T-cells; high PRAME-peptide-reactivity was CD4(+)-associated, as shown by IFN-γ-release. (2) Two types of antigen-presenting cells (APCs) were tested for presentation of LAA/HA1-proteins to CD4(+)T-cells: miniEBV-transduced lymphoblastoid cells (B-cell-source) and CD4-depleted MNC (source for B-cell/monocyte/DC). We provide a refined cloning-system for proliferating, CD40L(+)CD4(+)T-cells after LAA/HA1-stimulation. CD4(+)T-cells produced cytokines (GM-CSF, IFN-γ) upon exposure to LAA/HA1-stimulation until after at least 7 restimulations and demonstrated cytotoxic activity against naive blasts, but not fibroblasts. Antileukemic activity of unstimulated, stimulated or cloned CD4(+)T-cells correlated with defined T-cell-subtypes and the clinical course of the disease. In conclusion we provide immunological tools to enrich and monitor LAA/HA1-CD4(+)- and CD8(+)T-cells in AML-pts after SCT and generate data with relevant prognostic value. We were able to demonstrate the presence of LAA-peptide-specific CD8(+)T-cell clones in AML-pts after SCT. In addition, we were also able to enrich specific antileukemic reactive CD4(+)T-cells without GvH-reactivity upon repeated LAA/HA1-protein stimulation and limiting dilution cloning.

Detection of vaccinia virus DNA on the LightCycler by fluorescence melting curve analysis.

After eradication of variola virus the worldwide vaccination program was stopped to avoid the severe complications observed in a small fraction of vaccinees. Hence, there is at least one non-vaccinated generation in the human population that is immunologically naive with respect to variola virus infections. The possibility of a deliberate release of variola virus by bioterrorist attacks has led to the resumption of vaccination of hospital employees and military personnel with vaccinia virus in certain parts of the world. However, the appearance of a single confirmed smallpox case worldwide would result in vaccination of possible contact persons with vaccinia virus. Therefore, reliable confirmation of vaccinia virus in patients presenting with smallpox-like syndromes is required. A vaccinia virus-specific single nucleotide polymorphism was identified in the gene B8R coding for a vaccinia virus IFNgamma receptor. Based on this polymorphism, the LightCycler real-time PCR assay detects vaccinia virus DNA in a linear range from 10(6) to 10 genome equivalents and discriminates vaccinia virus from other orthopoxviruses by fluorescence melting curve analysis (DeltaT = 9 degrees C). While the assay amplifies generically DNA of all orthopoxviruses tested, amplification curves are only displayed for vaccinia virus strains including strains formerly used for vaccination. In addition, an internal amplification control is described that allows reliable interpretation of results.