Annechien Lambeck

Route of Administration Modulates the Induction of Dendritic Cell Vaccine–Induced Antigen-Specific T Cells in Advanced Melanoma Patients

Purpose: It is unknown whether the route of administration influences dendritic cell (DC)-based immunotherapy. We compared the effect of intradermal versus intranodal administration of a DC vaccine on induction of immunologic responses in melanoma patients and examined whether concomitant administration of interleukin (IL)-2 increases the efficacy of the DC vaccine. Experimental Design: HLA-A2.1+ melanoma patients scheduled for regional lymph node dissection were vaccinated four times biweekly via intradermal or intranodal injection with 12 × 106 to 17 × 106 mature DCs loaded with tyrosinase and gp100 peptides together with keyhole limpet hemocyanin (KLH). Half of the patients also received low-dose IL-2 (9 MIU daily for 7 days starting 3 days after each vaccination). KLH-specific B- and T-cell responses were monitored in blood. gp100- and tyrosinase-specific T-cell responses were monitored in blood by tetramer analysis and in biopsies from delayed-type hypersensitivity (DTH) skin tests by tetramer and functional analyses with 51Cr release assays or IFNγ release, following coculture with peptide-pulsed T2 cells or gp100- or tyrosinase-expressing tumor cells. Results: In 19 of 43 vaccinated patients, functional tumor antigen–specific T cells could be detected. Although significantly more DCs migrated to adjacent lymph nodes upon intranodal vaccination, this was also highly variable with a complete absence of migration in 7 of 24 intranodally vaccinated patients. Intradermal vaccinations proved superior in inducing functional tumor antigen–specific T cells. Coadministration of IL-2 did not further augment the antigen-specific T-cell response but did result in higher regulatory T-cell frequencies. Conclusion: Intradermal vaccination resulted in superior antitumor T-cell induction when compared with intranodal vaccination. No advantage of additional IL-2 treatment could be shown. Clin Cancer Res; 17(17); 5725–35. ©2011 AACR.

Immunization with a P53 synthetic long peptide vaccine induces P53-specific immune responses in ovarian cancer patients, a phase II trial

The prognosis of ovarian cancer, the primary cause of death from gynecological malignancies, has only modestly improved over the last decades. Immunotherapy is one of the new treatment modalities explored for this disease. To investigate safety, tolerability, immunogenicity and obtain an impression of clinical activity of a p53 synthetic long peptide (p53‐SLP) vaccine, twenty patients with recurrent elevation of CA‐125 were included, eighteen of whom were immunized 4 times with 10 overlapping p53‐SLP in Montanide ISA51. The first 5 patients were extensively monitored for toxicity, but showed no ≥ grade 3 toxicity, thus accrual was continued. Overall, toxicity was limited to grade 1 and 2, mostly locoregional, inflammatory reactions. IFN‐γ producing p53‐specific T‐cell responses were induced in all patients who received all 4 immunizations as measured by IFN‐γ ELISPOT. An IFN‐γ secretion assay showed that vaccine‐induced p53‐specific T‐cells were CD4+, produced both Th1 and Th2 cytokines as analyzed by cytokine bead array. Notably, Th2 cytokines dominated the p53‐specific response. P53‐specific T‐cells were present in a biopsy of the last immunization site of at least 9/17 (53%) patients, reflecting the migratory capacity of p53‐specific T‐cells. As best clinical response, stable disease evaluated by CA‐125 levels and CT‐scans, was observed in 2/20 (10%) patients, but no relationship was found with vaccine‐induced immunity. This study shows that the p53‐SLP vaccine is safe, well tolerated and induces p53‐specific T‐cell responses in ovarian cancer patients. Upcoming trials will focus on improving T helper‐1 polarization and clinical efficacy.

Serum Cytokine Profiling as a Diagnostic and Prognostic Tool in Ovarian Cancer: A Potential Role for Interleukin 7

Purpose: To evaluate if serum cytokine levels could be used as diagnostic or prognostic markers in ovarian cancer. Experimental Design: A cytokine bead array was done to simultaneously analyze 14 cytokines in the sera of 187 ovarian cancer patients with complete clinicopathologic data and follow-up, 45 patients with benign ovarian tumors, and 50 healthy controls. Serum levels of the well-known serum tumor marker CA-125 were routinely measured in all patients. Results: Serum levels of CA-125, interleukin 6 (IL-6), IL-7, and IL-10 were elevated in ovarian cancer patients compared with patients with benign ovarian tumors. Analyzing the cytokines in combination with CA-125 showed that a combination of IL-7 and CA-125 serum levels could accurately predict 69% of the ovarian cancer patients, without falsely classifying patients with benign pelvic mass. The cytokines IL-6, IL-7, IL-8, IL-10, monocyte chemotactic protein-1 (MCP-1), and IP-10 and CA-125 were associated with disease-free and overall survival in univariate analysis. In multivariate analysis, IL-7 and IP-10 were independent predictors of overall survival, although after inclusion of the clininopathologic parameters, only stage and residual disease remained as independent predictors of survival. Conclusions: IL-7 levels were found to be strongly associated with ovarian cancer and could be used in combination with CA-125 to distinguish between malignant and benign ovarian tumors.

P53-specific T cell responses in patients with malignant and benign ovarian tumors : Implications for p53 based immunotherapy

Despite intensive treatment, 70% of the ovarian cancer patients will develop recurrent disease, emphasizing the need for new approaches such as immunotherapy. A promising antigenic target for immunotherapy in ovarian cancer is the frequently overexpressed p53 protein. The aim of the study was to evaluate the nature and magnitude of the baseline anti‐p53 immune response in ovarian cancer patients. P53‐specific T cell responses were detected in both half of the ovarian cancer patients as in the group of control subjects, consisting of women with benign ovarian tumors and healthy controls. Importantly, while in the control group p53‐specific immunity was detected among the CD45RA+ naïve subset of T cells only, the p53‐specific T‐cell responses in ovarian cancer patients were also present in the CD45RO+ memory T‐cell subset, suggesting that in the cancer patients sufficient amounts of cancer‐derived p53 was presented to induce the formation of a p53‐specific memory T‐cell response. Further characterization of the p53‐specific memory T‐cell responses revealed that in addition to the type 1 cytokine IFN‐γ also the type 2 cytokines IL‐4 and IL‐5, as well as the immunosuppressive cytokine IL‐10 were produced. Notably, p53‐specific T cells were not only detected in the peripheral blood, but also among tumor infiltrating lymphocytes and in tumor‐draining lymph nodes. In conclusion, the existence of a weak mixed T‐helper type 1 and 2 p53‐specific T‐cell repertoire supports the rationale of using p53 long peptides in vaccination strategies aiming at the induction of p53‐specific Th1/CTL immunity.

Survival of ovarian cancer patients overexpressing the tumour antigen p53 is diminished in case of MHC class I down-regulation

OBJECTIVES The adaptive immune system seems to play an essential role in the natural course of ovarian cancer. Aim of this study was to establish whether disease-specific survival for patients expressing the tumour antigen p53 is influenced by MHC class I expression or the presence of p53 autoantibodies (p53-Aab). METHODS P53 and MHC class I expression were analysed in ovarian cancer tissue of 329 patients by immunohistochemistry using tissue microarrays. For 233 patients, pre-treatment serum samples were available to study the presence of p53 autoantibodies by ELISA. Data were linked to clinicopathological parameters and disease-specific survival. RESULTS P53 overexpression, MHC class I down-regulation in neoplastic cells and serum p53 autoantibodies were observed in 49.4, 38.9 and 15.9% of patients, respectively. MHC class I down-regulation in p53-overexpressing tumours correlated with a 10-month reduced disease-specific survival in univariate analysis (log-rank 4.10; p=0.043). p53-Aab were strongly correlated with p53 overexpression (p<0.001), but did not influence disease-specific survival. CONCLUSIONS As the prognosis of patients with p53-overexpressing ovarian cancer is affected by the MHC class I status of tumour cells and ovarian cancer patients can generate immune responses to the p53 tumour antigen, the further development of immunotherapy should evaluate strategies to improve MHC class I expression by tumour cells to facilitate antigen presentation in an attempt to increase clinical responses.

Potential Target Antigens for a Universal Vaccine in Epithelial Ovarian Cancer

The prognosis of epithelial ovarian cancer (EOC), the primary cause of death from gynaecological malignancies, has only modestly improved over the last decades. Immunotherapeutic treatment using a cocktail of antigens has been proposed as a “universal” vaccine strategy. We determined the expression of tumor antigens in the context of MHC class I expression in 270 primary tumor samples using tissue microarray. Expression of tumor antigens p53, SP17, survivin, WT1, and NY-ESO-1 was observed in 120 (48.0%), 173 (68.9%), 208 (90.0%), 129 (56.3%), and 27 (11.0%) of 270 tumor specimens, respectively. In 93.2% of EOC, at least one of the investigated tumor antigens was (over)expressed. Expression of MHC class I was observed in 78.1% of EOC. In 3 out 4 primary tumors, (over)expression of a tumor antigen combined with MHC class I was observed. These results indicate that a multiepitope vaccine, comprising these antigens, could serve as a universal therapeutic vaccine for the vast majority of ovarian cancer patients.

CHARGE syndrome: a review of the immunological aspects

CHARGE syndrome is caused by a dominant variant in the CHD7 gene. Multiple organ systems can be affected because of haploinsufficiency of CHD7 during embryonic development. CHARGE syndrome shares many clinical features with the 22q11.2 deletion syndrome. Immunological abnormalities have been described, but are generally given little attention in studies on CHARGE syndrome. However, structured information on immunological abnormalities in CHARGE patients is necessary to develop optimal guidelines for diagnosis, treatment and follow-up in these patients. Here, we provide an overview of the current literature on immunological abnormalities in CHARGE syndrome. We also explore immunological abnormalities in comparable multiple congenital anomaly syndromes to identify common immunological phenotypes and genetic pathways that might regulate the immune system. Finally, we aim to identify gaps in our knowledge on the immunological aspects in CHARGE syndrome that need further study.

Low-affinity TCR engagement drives IL-2-dependent post-thymic maintenance of naive CD4+T cells in aged humans

Insight into the maintenance of naive T cells is essential to understand defective immune responses in the context of aging and other immune compromised states. In humans, naive CD4+ T cells, in contrast to CD8+ T cells, are remarkably well retained with aging. Here, we show that low‐affinity TCR engagement is the main driving force behind the emergence and accumulation of naive‐like CD4+ T cells with enhanced sensitivity to IL‐2 in aged humans. In vitro, we show that these CD45RA+CD25dimCD4+ T cells can develop from conventional naive CD25−CD4+ T cells upon CD3 cross‐linking alone, in the absence of costimulation, rather than via stimulation by the homeostatic cytokines IL‐2, IL‐7, or IL‐15. In vivo, TCR engagement likely occurs in secondary lymphoid organs as these cells were detected in lymph nodes and spleen where they showed signs of recent activation. CD45RA+CD25dimCD4+ T cells expressed a broad TCRVβ repertoire and could readily differentiate into functional T helper cells. Strikingly, no expansion of CD45RA+CD25dimCD8+ T cells was detected with aging, thereby implying that maintenance of naive CD4+ T cells is uniquely regulated. Our data provide novel insight into the homeostasis of naive T cells and may guide the development of therapies to preserve or restore immunity in the elderly.

Viral vector-based prime-boost immunization regimens: a possible involvement of T-cell competition

Vaccination with recombinant viral vectors may be impeded by preexisting vector-specific immunity or by vector-specific immunity induced during the priming immunization. It is assumed that virus-neutralizing antibodies represent the principal effector mechanism of vector-specific immunity, while killing of infected cells by vector-specific cytotoxic T lymphocytes (CTLs) has also been suggested. Using recombinant Semliki Forest virus (rSFV) expressing E6E7 antigen from human papillomavirus, we demonstrate that secondary immune responses against E6E7 are neither affected by vector-specific antibodies nor by CTL-mediated killing of infected cells. Instead, the presence of the antigen during the prime immunization appeared to be the main determinant for the boosting efficacy. After priming with rSFVeE6,7, a homologous booster stimulated the primed E6E7-specific CTL response and induced long-lasting memory. Passively transferred SFV-neutralizing antibodies did not inhibit E6E7-specific CTL responses, although transgene expression was strongly reduced under these conditions. Conversely, in mice primed with irrelevant rSFV, induction of E6E7-specific CTLs was inhibited presumably due to vector-specific responses induced by the priming immunization. When during the priming with irrelevant rSFV, E7-protein was co-administered, the inhibitory effect of vector-specific immunity was abolished. These results suggest that, apart from vector-specific antibodies or killing of infected cells, T-cell competition may be involved in determining the efficacy of viral vector-based prime-boost immunization regimens.

Role of T cell competition in the induction of cytotoxic T lymphocyte activity during viral vector-based immunization regimens.

T cell competition between antigen- and vector-specific T cells may determine the outcome of viral vector-based immunization regimens, as we previously proposed. Here, we unravelled the interplay between antigen- and vector-specific immunity, using recombinant Semliki Forest virus (rSFV). Priming of mice with rSFV, encoding LacZ (SFVLacZ), or with empty rSFV strongly suppressed subsequent induction of ovalbumin or Human Papilloma virus (HPV) E6/E7-specific CTL activity by a booster with SFVeOVA or SFVeE6,7, respectively. Yet, priming with irradiated, i.e. replication-defective, SFVLacZ did not affect subsequent CTL induction, indicating that the interfering vector-specific immunity was directed against the viral replicase. However, immune responses against the strongly immunogenic nucleoprotein of influenza virus encoded by SFV were less severely affected by priming with SFVLacZ. Thus the outcome of heterologous prime-boost immunizations appears to depend on the immunogenicity of the respective antigens.