Stefanie Ae Held

Immunomodulatory effects of anti-angiogenic drugs

Much progress and significant therapeutic changes have been made in the field of tumor therapy in the past decades. Besides chemotherapy and radiotherapy, a special focus was laid on targeted therapies such as small molecule tyrosine kinase inhibitors (TKIs) and other immunomodulatory drugs, which have become standard therapies and important combination partners in a variety of malignancies. In contrast to the widely established use of these often anti-angiogenic drugs, many functional molecular mechanisms are yet not completely understood. Recent analyses focused not only on their direct anti-tumor responses, but also on their influence on tumor microenvironment, as well as on their effects on malignant and healthy cells. Different anti-angiogenic compounds targeting the vascular endothelial growth factor (VEGF) or platelet-derived growth factor pathways seem to be capable of modulating immune responses, in a positive, as well as apparently harmful manner. For an optimal clinical anti-cancer treatment, a better understanding of these immunomodulatory effects is necessary. Here we summarize recent reports on the immunomodulatory function of lately introduced clinically applied anti-angiogenic compounds, such as the humanized monoclonal antibody against VEGF bevacizumab, the small molecule TKIs sunitinib, sorafenib, imatinib, dasatinib, nilotinib and the proteasome inhibitor bortezomib.

Regulatory role of periodontal ligament fibroblasts for innate immune cell function and differentiation

Innate immunity is crucial for an effective host defense against pathogenic microorganisms in periodontal tissues. As periodontal ligament (PDL) cells synthesize immunomodulatory cytokines, the aim of this in vitro study was to investigate whether these cells can interact with innate immune cells. Resting and inflammatory primed (IL-1β, TNF-α, HMGB1) human PDL cells were co-cultured with human monocyte-derived dendritic cells or macrophages. Migration, phenotypic maturation and modulation of phagocytosis of Porphyromonas gingivalis by immune cells were investigated upon co-culture with PDL cells and/or their released soluble factors. PDL cells interacted with immune cells under both non-inflammatory and inflammatory conditions. Immune cell migration was significantly enhanced by co-culture with PDL cells, which also affected their phenotypic maturation both through cell-cell contact and through released soluble mediators. The dendritic cell maturation markers CD83 and CD86 were upregulated as much as both ‘alternatively activated’ M2 macrophage maturation markers CD23 and CD163. In contrast, the ‘classically activated’ M1 macrophage maturation marker CD64 was downregulated. Finally, PDL cells significantly enhanced the phagocytosis of Porphyromonas gingivalis by immune cells. Our experiments revealed that PDL cells are not only structural elements of the periodontium, but actively influence immune responses by interaction with innate immune cells.

Proteasome inhibition overcomes the resistance of renal cell carcinoma cells against the PPARγ ligand troglitazone

Abstract.In order to analyze the effects of peroxisome proliferator-activated receptor-γ (PPARγ) activation on renal cell carcinomas we utilized several cell lines that were treated with the high affinity PPARγ agonist, troglitazone. Incubation of RCC cells with troglitazone resulted in reduced secretion of growth factors that was due to the inhibition of MAP kinase signaling and reduced nuclear localized expression of relB and HIF1alpha. Interestingly, the cell lines used showed a different sensitivity towards apoptosis induction that did not correlate with the inhibition of growth factors or expression of pro- and antiapoptotic molecules. To overcome this resistance the cells were treated with a combination of troglitazone and the proteasome inhibitor, bortezomib. The combination of both compounds induced apoptosis even in cells resistant to both agents alone, due to increased induction of ER-stress and caspase-3 mediated cell death.

Characterization of BAX inhibitor-1 as a novel leukemia-associated antigen.

Using dendritic cells (DCs) electroporated with whole RNA isolated from blasts of a patient with acute myeloid leukemia (AML), we were able to generate leukemia-specific cytotoxic T lymphocytes (CTLs) capable of recognizing the leucemic cells. To identify T-cell epitopes mediating lysis of malignant cells, peptides were eluted from the patients blasts and analyzed by mass spectrometry (LC/MS)-based peptide sequencing. Using this approach, an HLA-A24-binding peptide derived from Bax inhibitor-1 (BI-1), a regulator of apoptosis pathways, was identified as an epitope recognized by the generated CTLs. To further characterize this novel antigenic peptide, CTLs were induced using DCs electroporated with RNA coding for BI-1 or pulsed with the cognate peptide. These CTLs generated from healthy donors in vitro efficiently lysed the patients blasts as well as other HLA-matched leukemic cells. In conclusion, we identified a BI-1 peptide as a novel immunogenic tumor-associated antigen (TAA) in AML. In vitro induction of BI-1-specific CTLs by RNA transfection or pulsing of DCs with the synthetically generated peptide was a feasible and highly effective method to generate leukemia-specific CTLs. As BI-1 is (over-) expressed in a broad variety of malignancies, it may represent an interesting novel TAA in the context of cancer vaccines.