Targeted delivery of a vaccine protein to Langerhans cells in the human skin via the C-type lectin receptor Langerin.

Human skin is a preferred vaccination site as it harbors multiple dendritic cell (DC) subsets, which display distinct C-type lectin receptors (CLR) that recognize pathogens. Antigens can be delivered to CLR by antibodies or ligands to boost antigen-specific immune responses. This concept has been established in mouse models but detailed insights into the functional consequences of antigen delivery to human skin DC in situ are sparse. In this study, we cloned and produced an anti-human Langerin antibody conjugated to the EBV nuclear antigen 1 (EBNA1). We confirmed specific binding of anti-Langerin-EBNA1 to Langerhans cells (LC). This novel LC-based vaccine was then compared to an existing anti-DEC-205-EBNA1 fusion protein by loading LC in epidermal cell suspensions before coculturing them with autologous T cells. After restimulation with EBNA1-peptides, we detected elevated levels of IFN-γ- and TNF-α-positive CD4+ T cells with both vaccines. When we injected the fusion proteins intradermally into human skin explants, emigrated skin DC targeted via DEC-205-induced cytokine production by T cells, whereas the Langerin-based vaccine failed to do so. In summary, we demonstrate that antibody-targeting approaches via the skin are promising vaccination strategies, however, further optimizations of vaccines are required to induce potent immune responses.

Specific Protein Antigen Delivery to Human Langerhans Cells in Intact Skin.

Immune modulating therapies and vaccines are in high demand, not least to the recent global spread of SARS-CoV2. To achieve efficient activation of the immune system, professional antigen presenting cells have proven to be key coordinators of such responses. Especially targeted approaches, actively directing antigens to specialized dendritic cells, promise to be more effective and accompanied by reduced payload due to less off-target effects. Although antibody and glycan-based targeting of receptors on dendritic cells have been employed, these are often expensive and time-consuming to manufacture or lack sufficient specificity. Thus, we applied a small-molecule ligand that specifically binds Langerin, a hallmark receptor on Langerhans cells, conjugated to a model protein antigen. Via microneedle injection, this construct was intradermally administered into intact human skin explants, selectively loading Langerhans cells in the epidermis. The ligand-mediated cellular uptake outpaces protein degradation resulting in intact antigen delivery. Due to the pivotal role of Langerhans cells in induction of immune responses, this approach of antigen-targeting of tissue-resident immune cells offers a novel way to deliver highly effective vaccines with minimally invasive administration.

Notch-Mediated Generation of Monocyte-Derived Langerhans Cells: Phenotype and Function.

Langerhans cells (LCs) in the skin are a first line of defense against pathogens but also play an essential role in skin homeostasis. Their exclusive expression of the C-type lectin receptor Langerin makes them prominent candidates for immunotherapy. For vaccine testing, an easily accessible cell platform would be desirable as an alternative to the time-consuming purification of LCs from human skin. Here, we present such a model and demonstrate that monocytes in the presence of GM-CSF, TGF-ß1, and the Notch ligand DLL4 differentiate within 3 days into CD1a+Langerin+cells containing Birbeck granules. RNA sequencing of these monocyte-derived LCs (moLCs) confirmed gene expression of LC-related molecules, pattern recognition receptors, and enhanced expression of genes involved in the antigen-presenting machinery. On the protein level, moLCs showed low expression of costimulatory molecules but prominent expression of C-type lectin receptors. MoLCs can be matured, secrete IL-12p70 and TNF-α, and stimulate proliferation and cytokine production in allogeneic CD4+ and CD8+ T cells. In regard to vaccine testing, a recently characterized glycomimetic Langerin ligand conjugated to liposomes demonstrated specific and fast internalization into moLCs. Hence, these short-term in vitro‒generated moLCs represent an interesting tool to screen LC-based vaccines in the future.

Combining chemotherapy and autologous peptide-pulsed dendritic cells provides survival benefit in stage IV melanoma patients.

BACKGROUND AND OBJECTIVES: We examined retrospectively whether the combination of standard dacarbazine (DTIC) and/or fotemustine chemotherapy and autologous peptide-loaded dendritic cell (DC) vaccination may improve survival of stage IV melanoma patients. Furthermore, a small cohort of long-term survivors was studied in more detail. PATIENTS AND METHODS: Between 1998 and 2008, 41 patients were vaccinated at least three times with DCs while receiving chemotherapy and compared to all other 168 patients in our database who only received chemotherapy (1993-2008). RESULTS: Median life expectancy of patients receiving additional DC-vaccination was 18 months, compared to eleven months for patients under standard chemotherapy alone. In contrast to patients with other haplotypes, the HLA-A1/A1 subset of DC-treated patients showed significantly lower median survival (12 vs. 25 months). Autoantibodies were frequently detected in serum of both vaccinated and non-vaccinated patients, and there was no correlation between titers, loss or appearance of autoantibodies and survival. Additionally, phenotyping of DCs and PBMCs also did not reveal any conspicuous correlation with survival. CONCLUSIONS: Combining standard chemotherapy and DC vaccination appears superior to chemotherapy alone. The impact of HLA haplotypes on survival emphasizes the importance of a careful selection of patients with specific, well-defined HLA haplotypes for future vaccination trials using peptide-pulsed DCs, possibly combined with checkpoint inhibitors.

T cells in multiple myeloma display features of exhaustion and senescence at the tumor site.

BACKGROUND: Multiple myeloma is an incurable plasma cell malignancy that is mostly restricted to the bone marrow. Cancer-induced dysfunction of cytotoxic T cells at the tumor site may be responsible for immune evasion and therapeutical failure of immunotherapies. Therefore, enhanced knowledge about the actual status of T cells in myeloma bone marrow is urgently needed. Here, we assessed the expression of inhibitory molecules PD-1, CTLA-4, 2B4, CD160, senescence marker CD57, and CD28 on T cells of naive and treated myeloma patients in the bone marrow and peripheral blood and collected data on T cell subset distribution in both compartments. In addition, T cell function concerning proliferation and expression of T-bet, IL-2, IFNγ, and CD107a was investigated after in vitro stimulation by CD3/CD28. Finally, data was compared to healthy, age-matched donor T cells from both compartments. METHODS: Multicolor flow cytometry was utilized for the analyses of surface molecules, intracellular staining of cytokines was also performed by flow cytometry, and proliferation was assessed by 3H-thymidine incorporation. Statistical analyses were performed utilizing unpaired T test and Mann-Whitney U test. RESULTS: We observed enhanced T cell exhaustion and senescence especially at the tumor site. CD8+ T cells expressed several molecules associated with T cell exhaustion (PD-1, CTLA-4, 2B4, CD160) and T cell senescence (CD57, lack of CD28). This phenotype was associated with lower proliferative capacity and impaired function. Despite a high expression of the transcription factor T-bet, CD8+ T cells from the tumor site failed to produce IFNγ after CD3/CD28 in vitro restimulation and displayed a reduced ability to degranulate in response to T cell stimuli. Notably, the percentage of senescent CD57+CD28- CD8+ T cells was significantly lower in treated myeloma patients when compared to untreated patients. CONCLUSIONS: T cells from the bone marrow of myeloma patients were more severely impaired than peripheral T cells. While our data suggest that terminally differentiated cells are preferentially deleted by therapy, immune-checkpoint molecules were still present on T cells supporting the potential of checkpoint inhibitors to reactivate T cells in myeloma patients in combination therapies. However, additional avenues to restore anti-myeloma T cell responses are urgently needed.

CCR10/CCL27 crosstalk contributes to failure of proteasome-inhibitors in multiple myeloma.

The bone marrow microenvironment plays a decisive role in multiple myeloma progression and drug resistance. Chemokines are soluble mediators of cell migration, proliferation and survival and essentially modulate tumor progression and drug resistance. Here we investigated bone marrow-derived chemokines of naive and therapy-refractory myeloma patients and discovered that high levels of the chemokine CCL27, known so far for its role in skin inflammatory processes, correlated with worse overall survival of the patients. In addition, chemokine levels were significantly higher in samples from patients who became refractory to bortezomib at first line treatment compared to resistance at later treatment lines.In vitro as well as in an in vivo model we could show that CCL27 triggers bortezomib-resistance of myeloma cells. This effect was strictly dependent on the expression of the respective receptor, CCR10, on stroma cells and involved the modulation of IL-10 expression, activation of myeloma survival pathways, and modulation of proteasomal activity. Drug resistance could be totally reversed by blocking CCR10 by siRNA as well as blocking IL-10 and its receptor.From our data we suggest that blocking the CCR10/CCL27/IL-10 myeloma-stroma crosstalk is a novel therapeutic target that could be especially relevant in early refractory myeloma patients.

Chemokine-dependent B cell-T cell interactions in chronic lymphocytic leukemia and multiple myeloma - targets for therapeutic intervention?

INTRODUCTION: Chemokines and their receptors play essential roles in the development, maintenance and proper functioning of the immune system. B cell-T cell interactions are modulated by chemokines. In B cell malignancies, these interactions may have tumor-promoting consequences. AREAS COVERED: This review summarizes physiological B cell-T cell interactions and discusses their pathological role in the onset and progression of B cell malignancies with a special focus on chronic lymphocytic leukemia and multiple myeloma. Experimental data on chemokine-guided B cell-T cell actions in B cell malignancies from murine models as well as in vitro data are summarized and their potential as future therapeutic targets is critically discussed. EXPERT OPINION: Direct or indirect targeting of chemokine receptors involved in localization and T-cell-dependent activation of B lymphocytes can provide strong synergisms with conventional or immunomodulatory therapies by disrupting the microenvironmental conditions necessary for survival and proliferation of malignant B lymphocytes. However, further knowledge of these interactions between B and T cells is needed.

Antimyeloma activity of the sesquiterpene lactone cnicin: impact on Pim-2 kinase as a novel therapeutic target.

Despite recent advances in therapy, multiple myeloma, the second most common hematologic tumor in the Western world, is still incurable. Identification of substances that display a wide range of tumor-killing activities and target cancer-specific pathways constitute a basis for the development of novel therapies. In this study, we investigate the cytotoxic effect of the natural substance cnicin in multiple myeloma. Cnicin treatment reveals potent antiproliferative effects and induces cell death in cell lines and primary myeloma cells even in the presence of survival cytokines and the tumor microenvironment. Other cell lines of hematopoietic origin also succumb to cell death whereas stromal cells and endothelial cells are unaffected. We show that activation of caspases, accumulation of reactive oxygen species and downregulation of nuclear factor kappa-light-chain-enhancer of activated B cell contribute to the cytotoxic effects of cnicin. Microarray analysis reveals downregulation of Pim-2, a serine/threonine kinase. We provide evidence that Pim-2 constitutes a new survival kinase for myeloma cells in vitro and is highly expressed in malignant but not in normal plasma cells in vivo. Combining cnicin with current standard or experimental therapeutics leads to enhanced cell death. Thus, our data indicate that cnicin induces myeloma cell death via several pathways and reveals Pim-2 as a novel target. These findings provide a rational for further evaluation of cnicin as a new anti-tumor drug and underline the potential of sesquiterpene lactones in tumor therapy.

Tumour-immune cell interactions modulated by chemokines.

BACKGROUND: Chemokines are involved in almost all aspects of tumour establishment and progression. OBJECTIVE: This review gives an insight into the complexity of chemokines and chemokine signalling in tumours, especially focusing on the tuning of the immune system within the tumour microenvironment. METHODS: Experimental evidence from manipulation of the chemokine network in murine models and in vitro data are critically discussed, and the current status and potential future interventions therapeutically targeting chemokines for efficient and long-lasting tumour control in cancer patients are described.

Allogeneic dendritic cell vaccination against metastatic renal cell carcinoma with or without cyclophosphamide.

In this phase I/II study, we evaluated the feasibility, safety and efficacy of allogeneic dendritic cells (DCs) with or without cyclophosphamide in the treatment of patients with metastatic renal cell carcinoma (RCC). Immunomagnetic beads were used to isolate CD14(+) monocytes from healthy donor leukapheresis products, and CD83(+) antigen-pulsed monocyte-derived DCs (moDCs) loaded with tumor lysate and keyhole limpet hemocyanin (KLH) were generated. Twelve patients were treated with allogeneic moDCs alone, while ten patients also received cyclophosphamide on days 4 and 3 prior to vaccination. Of the 22 patients enrolled, 20 received full treatment consisting of at least three vaccinations at monthly intervals. Two mixed responses with substantial tumor regression were observed. In 3 patients, disease stabilization occurred, in 13 patients disease progressed and 4 patients were lost to follow-up. Overall, immune responses against KLH and tumor lysate were weak or absent; however, the strongest increases in antigen-independent and KLH-specific responses were observed in the 2 patients with mixed responses. In addition, 1 of them showed a substantial increase in oncofetal antigen (OFA)-specific IFN-gamma production. Importantly, the 2 mixed responders and 1 patient with stable disease belonged to the cyclophosphamide group. Median overall survival in the cyclophosphamide group was 23.2 and 20.3 months in the group that received allogeneic moDCs alone. Allogeneic immunotherapy with moDCs is feasible and well tolerated. However, the immunogenicity of allogeneic moDCs is clearly less pronounced than that of autologous moDC immunotherapy. Cyclophosphamide may have the capacity to augment DC-induced antitumor immunity.

Up-regulation of functional chemokine receptor CCR3 in human renal cell carcinoma.

There is increasing evidence that chemokines and chemokine receptors are causally involved in tumorigenesis by facilitating tumor proliferation and metastasis. Little is known about the possible function of chemokine receptors in the development and progression of renal cell carcinoma (RCC). We, therefore, analyzed the expression of chemokine receptors in tumor specimens and adjacent healthy kidney tissues [normal kidney cell (NKC)] from 10 RCC patients. We also characterized the permanent RCC cell line A-498. CCR6, CXCR2, and CXCR3 were consistently expressed by both malignant cells and NKCs. A-498 displayed additional expression of CXCR4. Importantly, the expression of CCR3 was almost absent on NKCs but clearly enhanced in a substantial proportion of RCC specimens. The primary CCR3 ligand, eotaxin-1/CCL11, induced intracellular Ca2+ mobilization, receptor internalization, and proliferation in A-498 cells confirming signaling competence of RCC-associated CCR3. In addition, we screened tumor tissue sections of 219 patients and found that 28% (62 of 219) expressed the CCR3 receptor. The presence of CCR3 in tumor samples seemed to correlate with the grade of malignancy. Previous work has established that eotaxin-1 expression is induced by tumor necrosis factor-alpha, a cytokine known to be present in RCC tissue. Our data, therefore, supports a scenario in which eotaxin-1 as part of tumor-associated inflammation promotes progression and dissemination of CCR3-positive RCC.

Generation of clinical-grade monocyte-derived dendritic cells using the CliniMACS system.

We describe the generation of monocyte-derived dendritic cells (MoDC) from leukapheresis products using the CliniMACS system from Miltenyi Biotec. In a clinical setting, the method turned out to be feasible for the generation of clinical-grade MoDC from patients with metastatic renal-cell carcinoma. MoDC generated with this system exhibited a fully mature phenotype as well as high migratory and T-cell stimulatory capacity.

Immunotherapy of metastatic renal cell carcinoma with tumor lysate-pulsed autologous dendritic cells.

PURPOSE: We wanted to evaluate feasibility and safety of dendritic cell-based immunotherapy in patients with metastatic renal cell carcinoma (RCC). EXPERIMENTAL DESIGN: Patients with metastatic RCC (n = 35) received vaccinations (i.v. or i.d.) of CD83+ autologous monocyte-derived dendritic cells (moDCs). MoDCs were loaded with lysate of cultured autologous or allogeneic permanent tumor cells (A-498) as well as keyhole limpet hemocyanin as control and helper antigen. Maturation of moDCs was induced by a combination of tumor necrosis factor alpha, interleukin 1 beta, interleukin 6, and prostaglandin E2. RESULTS: Treatment was associated with transient flu-like symptoms. In 2 of 27 evaluable patients, any evidence of disease disappeared (complete response). In both cases, metastatic tissue had been the source of tumor antigen. One patient had an objective partial response. Seven patients had stable disease, the remaining 17 patients had progressive disease. In 11 of 11 patients evaluated, moDCs induced strong immune responses against keyhole limpet hemocyanin. In 5 of 6 patients tested, enhanced immune responses against oncofetal antigen (immature laminin receptor; OFA/LRP) could also be detected. The strongest responses against OFA/LRP were detectable in 2 patients with complete response and partial response, respectively. At the time of submission, mean follow up is 32 months and 8 patients are currently alive. CONCLUSIONS: Our data indicate that moDC-based vaccination is well tolerated and has immunological as well as clinical effects in patients with metastatic RCC. OFA/LRP might be an attractive candidate antigen for DC-based immunotherapy of RCC.

An Escherichia coli-based oral vaccine against urinary tract infections potently activates human dendritic cells.

OBJECTIVES: To investigate the effects of Uro-Vaxom, an oral vaccine against Escherichia coli urinary tract infections, on human monocyte-derived dendritic cells (moDCs). Dendritic cells (DCs) are important antigen-presenting cells of the immune system. DCs are considered promising cellular adjuvants for inducing immunity against cancer or infectious diseases. METHODS: moDCs were generated in the presence of granulocyte-macrophage colony-stimulating factor and interleukin-4. Flow cytometric phenotyping, as well as the ability to stimulate T cells in an allogeneic mixed leukocyte reaction, was used to assess the effects of Uro-Vaxom on human moDCs. In addition, interferon-gamma and interleukin-4 production by T cells stimulated with Uro-Vaxom-activated moDCs were measured by intracellular fluorescence-activated cell sorter-staining at the single-cell level. RESULTS: Uro-Vaxom induced the terminal maturation of CD83+ moDCs in a dose-dependent manner. Phenotypic analyses revealed that Uro-Vaxom-activated moDCs displayed a phenotype of mature DCs with high levels of MHC molecules and increased levels of co-stimulatory molecules (CD80, CD86). Consistent with these findings, Uro-Vaxom-activated moDCs potently stimulated T-cell proliferation and interferon-gamma production in the allogeneic mixed leukocyte reaction. CONCLUSIONS: In DC-based immunotherapy, Uro-Vaxom could be used as a stimulant of DC maturation, which meets the standards of good manufacturing practice. In future preclinical studies, we will evaluate the effectiveness of a vaccination with Uro-Vaxom-activated moDCs. It could be an attractive treatment option in preventing recurrent E. coli urinary tract infections in predisposed individuals.

Defective T-helper cell function after T-cell-depleting therapy affecting naive and memory populations.

Impaired T-cell function after T-cell- depleting (TCD) therapy has been hypothesized to be related to a transient predominance of extrathymically expanding memory T cells. To test whether after TCD therapy the naive T-helper cell population is functionally intact, the in vitro immune response of CD4(+)CD45RA(+) (naive) and of CD4(+)CD45RA(-) (memory) cells to polyclonal mitogens (immobilized anti-CD3, phytohemagglutinin) was analyzed by flow cytometry in 22 pediatric patients after high-dose chemotherapy (including 5 after autologous and 5 after allogeneic stem cell support). At 1 to 3 months after TCD therapy, patient samples showing decreased lymphoproliferative responses also showed a reduced induction of the early activation marker CD69 by CD4(+) T cells from 4 to 72 hours after stimulation even when supplemented with exogenous interleukin-2. This defect affected CD4(+)CD45RA(-) cells, but, strikingly, also CD4(+)CD45RA(+) cells, including samples in which CD4(+)CD45RA(+) cells were more than 90/microL, thus indicating ongoing thymopoiesis. Histogram analyses showed the median peak channel of CD69 in control CD4(+)CD45RA(+) cells rising 98-fold (median) but only 28-fold in patient cells (P <.0001). Apoptosis as detected by annexin V staining was increased in resting patient CD4(+) T cells (25% versus 6%) and also affected CD4(+)CD45RA(+) cells (12% versus 5%, P <.01). When peripheral blood mononuclear cells (PBMCs) were enriched for T cells, stimulatory responses of CD4(+) cells and of CD4(+)CD45RA(+) cells markedly improved. Thus, after TCD therapy suppressor factors contained in the non-T-cell fraction of PBMCs may affect T-helper cells irrespective of their naive or memory phenotype thus extending T-cell dysfunction to the presumably thymus-dependently regenerated T cells.

Human monocyte-derived dendritic cells are deficient in prostaglandin E2 production.

Monocyte-derived dendritic cells (moDCs) are increasingly used in clinical settings to stimulate tumor immunity. Prostaglandin E2 (PGE2), which is a member of the eicosanoid family of oxygenated arachidonic acid derivatives generated through the action of cyclooxygenases (COXs), is frequently used to enhance the tumor necrosis factor-alpha-induced terminal maturation of moDCs. We show here that one effect of interleukin (IL)-4, which is used together with GM-CSF to generate moDCs, is the suppression of endogenous PGE2 production in moDCs. IL-4 inhibits the cytoplasmic form of phospholipase A2, the enzyme that specifically liberates arachidonic acid from membrane phospholipids. Although moDCs failed to mobilize endogenous arachidonic acid, they converted exogenous arachidonic acid into PGE2 in a COX-1- and COX-2-dependent fashion. IL-4-mediated suppression of PGE2 biosynthesis in human moDCs explains the previously reported maturation-enhancing effect of exogenous PGE2. The general suppression of eicosanoid biosynthesis may, however, limit the immunological efficacy of moDCs generated with IL-4.