Pitfalls of vaccinations with WT1-, Proteinase3- and MUC1-derived peptides in combination with MontanideISA51 and CpG7909

This was a non-randomized, non-blinded, controlled, bi-centric, open-label, adjuvant vaccination pilot study. Nine patients HLA*A0201 by genotyping were included. Inclusion criteria included confirmed primary or secondary AML or relapse of an AML, including RAEB/RAEB-T, IPSS score ≥1.5; and minimal residual disease (MRD) (defined as >5% ≤30% leukemic blasts in bone morrow). Patients with confirmed MM were also eligible if presenting with stage I or stable disease, or partial remission after cytoreductive chemotherapy. Further inclusion criteria were patients with older than (≥) 18 years of age of either gender and of any race, life expectancy of at least 4 months, and adequate performance status (Karnofsky score ≥70%). Systemic corticosteroid or other immunosuppressive therapies were not allowed within the last 3 months or during the study. Prior chemotherapy or radiation therapy was allowed if at least 2 weeks had elapsed between the last dose of therapy and study entry and the patient had recovered from all treatment-related toxicities. Study reagents were injected subcutaneously on days 0, 14, 28, 42, 56, and 70. Patients were vaccinated simultaneously at different locations with two different types of vaccines. AML patients received a combination of pan HLA-DR T helper cell epitope (PADRE), CpG7909, MontanideISA51 and either WT1_126–134 (vaccine A) or Pr3_169–177 (vaccine B). MM patients received CpG7909, MontanideISA51, and either MUC1_79–87 and PADRE (vaccine C) or the oligomer MUC1_138–178 (vaccine D) (Fig. 1). The oligomer in vaccine D served as source for CD4⁺ and CD8⁺ T cell epitopes. Every patient received the study substances in a dose of 1.0 mg for each peptide, comparable to dose levels in other clinical trials [14‐16], CpG7909 was administered at a final dose of 1 mg, again within the dose range of other successful clinical vaccination trials (range 0.5–8 mg) [17‐21]. The final vaccine was freshly prepared from different compounds for each day of vaccination. PBMCs were collected at day −7 (range day −13/0) and every second week until day 84. Leukapheresis was performed at day 42 (range day 42/56) and 84 (range day 84/94) in order to harvest PBMCs and collected material processed and frozen immediately. The study was approved by the local ethics board, regulatory authorities and has been registered at the “Deutsche Krebstudienregister” (DKSR number 415 and 416; http://​www.​studien.​de/​includes/​studien_​suchen/​studie.​suchen.​php?​PIC_​CASE=​1&​L).

Clinical grade peptides were purchased from Clinalfa-Bachem (Weil am Rhein, Germany), and MontanideISA51 from Seppic (Köln, Germany). CpG7909 (VaxImmune™) was kindly provided by Coley pharmaceuticals GmbH (Düsseldorf, Germany). Peptides WT1_126–134, PR3_169–177, MUC1_79–87, HIV-reverse transcriptase: HIV_{RT 476–484}, HBVcore_128–140, and CMVpp65_495–504, overlapping 15-mers for MUC1_138–178, PADRE, PE-labeled HLA-A*0201-presented WT1_126–134, PR3_169–177, MUC1_79–87, HIV_{RT 476–484}, and CMVpp65_495–504 pentamers were from ProImmune (Oxford, UK). Anti-CD3-Pacific Blue, anti-CD4-APC Alexa Fluor 750, anti-CCR7-PE-cy7, anti-CD27-APC Alexa Fluor 750, anti-PD-1-APC, anti-FoxP3-APC (including anti-human Foxp3 Staining Set), anti-TNFα-PE Cy7, anti-IL4-PE Cy7, anti-IL10-PE, were obtained from Invitrogen (Paisley, UK); anti-CD8-PercP, CD86-PE, anti-CD25-FITC, anti-CD127-PE Cy7, anti-IFNγ-FITC, and anti-IL2-APC from BD Biosciences (Erembodegem, Belgium); and anti-CD303-FITC (BDCA-2) from Miltenyi Biotec (Gladbach, Germany). Flow cytometry was performed on an LSR II flow cytometer (BD Biosciences) using FacsDiva software (BD Biosciences).

Pentamer staining and functional T cell assays were performed as described recently [4, 5, 22‐24]. In brief, ~1 × 10⁶ PBMCs were incubated with pentamer for 30 min, then directly conjugated antibodies were added for 20 min at 4°C in order to specify T cell phenotype (CD3-Pacific Blue, CD27-APC-Alexafluo 750, PD-1 APC, and CD8-PercP, CCR7-PE-cy7). Cells were washed with PBS and resuspended in FACS buffer (0.1% BSA + 0.1% Na-azide in PBS) for FACS analysis. Gating for all pentamer stainings were standardized within individual samples to arrive at a fully comparative datasets. In order to test background staining for individual pentamers, 10⁶ PBMCs derived from five HLA-A*0201-positive but CMV- and HIV-negative healthy individuals were co-incubated with individual pentamers and an anti-CD8 antibody and analyzed by flow cytometry. Unspecific staining was thereby determined for all pentamers as ≤0.05% of CD8⁺ T cells (data not shown). To assess the sensitivity of pentamer staining to detect vaccine-reactive T cells with intermediate avidity and low frequency, we took advantage of previous work from our laboratory with intermediate avidity WT1_126–134-specific T cells [4, 23]. These data and titration of a WT1_126–134-specific T cell clone into 10⁶ CD8⁺ T cells (Supplementary Fig. 4) demonstrate a highly reproducible and specific pentamer staining for intermediate avidity T cell lines and clones with frequencies ≥0.10%. Intracellular cytokine (ICC) assay was performed as described recently [4]. In brief, ~1 × 10⁶ PBMCs were stimulated with the indicated peptide (10 μg/ml) and Brefeldin A (GolgiPlug™, BD) (1 μl/ml) for 6 h at 37°C. After 6 h, cells were washed and surface antibodies were added: anti-CD3-Pacific Blue, anti-CD4-APC Alexa Fluor 750, anti-CD8-PercP. Cells were incubated for 20 min at 4°C and washed with PBS. Cells were fixed and permeabilized with lysing and permeabilizing solution (BD FACS™). Next, anti-TNFα-PE Cy7, anti-IFNγ-FITC, and anti-IL2-APC or anti-IL4-PE Cy7 and anti-IL10-PE were added. Gating for all ICC assays was standardized within individual samples to arrive at a fully comparative datasets. Thereby, background signal for TNFα, IFNγ, and IL2 cytokine secretion was tested in 2 HLA-A*0201-positive HIV and CMV-negative healthy individuals. CD4⁺- or CD8⁺ cytokine-secreting cells were detected in <0.1% of cells (data not shown), thus the detection threshold was determined as 0.1%. In vitro expansion assays were performed as described recently [23]. In brief, 1 × 10⁶ PBMCs/sample were stimulated with 1 μg/ml peptides WT1_126–134, PR3_169–177, MUC1_79–87, overlapping 15-mer MUC1_138–164, overlapping 15-mer MUC1_153–178, HIV_{RT 476–484} or CMVpp65_495–503, together with 50 U/ml IL2 (Chiron, Emeryville, CA, USA), for 1 week at 37°C_. After 1 week, a 6-h stimulation followed by an ICC assay was performed as described above. T cell clones with specificity for WT1_126–134 have been generated as described recently [4, 5, 23]. A twofold change in frequency of antigen-specific T cells was considered as vaccine-induced, an arbitrary threshold used in multiple vaccination studies to define vaccine-specific immune responses [7, 8].