The inhibition of tyrosine kinase receptor signalling in leiomyosarcoma cells using the small molecule kinase inhibitor PTK787/ZK222584 (Vatalanib)

Leiomyosarcomas remain challenging tumors to manage and novel therapy strategies besides radiation and conventional chemotherapy are needed. Targeting angiogenesis by inhibition of vascular endothelial growth factor (VEGF) receptor tyrosine kinases (RTKs) of the tumor vasculature with small molecules is a promising new therapy. It has been shown recently that these receptors are not only expressed on tumor endothelium but also on tumor cells themselves. Thus, we investigated the expression of members of the VEGF receptor (VEGFR) family and corresponding growth factors in leiomyosarcoma tissue specimens and in the leiomyosarcoma cell lines SK-LMS-1 and SK-UT-1. We evaluated the influence of the VEGFR inhibitor PTK787/ZK222584 (PTK787) on cell growth, migration, apoptosis and phosphorylation of intracellular signalling molecules. In human leiomyosarcoma tissue specimens VEGFR-1/-2 and platelet-derived growth factor receptor (PDGFR-beta) were strongly expressed. Both leiomyosarcoma cell lines expressed VEGFR-1/-3 and PDGFR-beta but VEGFR-2 protein expression was positive only in SK-UT-1. SK-LMS-1 and SK-UT-1 cells secreted high and low amounts of VEGF-A, respectively, whereas PDGF-BB secretion was similar in both cell lines. Application of PTK787 led to partial inhibition of PDGF-BB-activated AKT/p90RSK and ERK1/2 signalling pathways. In contrast, protein phosphorylation was not affected by PTK787 in VEGF-A-treated cells. PTK787 turned out to inhibit cell migration even though no effects were observed upon stimulation with VEGF-A or PDGF-BB. In line, cell growth in leiomyosarcoma cell lines remained unchanged upon PTK787 treatment alone and with subsequent VEGF-A- or PDGF-BB-stimulation. However, VEGF-A, but not PDGF-BB-treated cells showed increased cell death upon PTK787 treatment. VEGFR family members are expressed in leiomyosarcomas in vivo and in vitro. Upon receptor stimulation, PTK787 is able to inhibit subsequent phosphorylation events and influences cell survival but not metabolic activity and migration. Thus, the inhibitor is possibly an additional option in the treatment of leiomyosarcoma

Different proliferative and survival capacity of CLL-cells in a newly established in vitro model for pseudofollicles.

Chronic lymphocytic leukemia (CLL) is a malignancy of mature B-lymphocytes that manifests in a variety of clinical courses. The accumulation of CLL-cells is primarily caused by defective apoptosis; however, a higher proliferative capacity has also been found to correlate with poorer prognostic factors. Proliferating CLL-cells are confined to specialized structures called pseudofollicles, which contain CLL-cells, T-lymphocytes, and stromal cells. We established an in vitro model for pseudofollicles to characterize the behavior of CLL-cells in relation to clinical courses with different outcomes. Only CLL-cells from progressive clinical cases were inducible to proliferate by a combination of soluble CD40L/IL-2/IL-10 in co-culture with stromal cells. Proliferating CLL-cells showed a higher and more extensive expression of antigens, which are important in T-B-cell interactions such as CD40, MHC II, and adhesion molecules. IL-4 increased interferon regulatory factor-4 expression and induced a specific immunophenotype, which may imply plasmacytic differentiation. Furthermore, it was shown that co-cultured stromal cells protected CLL-cells from apoptosis. CLL-cells from clinically indolent cases had a far worse survival rate in medium than the cells from poor prognostic cases. Thus, we can assume that not only a different resistance to apoptosis, but also proliferation contributes to the progression of CLL resulting in bone marrow failure with thrombocytopenia and anemia

The prognostic value of Her4 receptor isoform expression in triple-negative and Her2 positive breast cancer patients

Background Not only four but rather seven different humane pidermal growth factor receptor related (Her) receptor tyrosine kinases (RTKs) have been described to be expressed in a variety of normal and neoplastic tissues: Her1, Her2, Her3, and additionally four Her4 isoforms have been identified. A differential expression of Her4 isoforms does not, however, play any role in either the molecular diagnostics or treatment decision for breast cancer patients. The prognostic and predictive impact of Her4 expression in breast cancer is basically unclear. Methods We quantified the Her4 variants JM-a/CYT1, JM-a/CYT2, JM-b/CYT1, and JM-b/CYT2 by isoform-specific polymerase chain reaction (qPCR) in (i) triple-negative, (ii) Her2 positive breast cancer tissues and (iii) in benign breast tissues. Results In all three tissue collectives we never found the JM-b/CYT1 or the JM-b/CYT2 isoform expressed. In contrast, the two JM-a/CYT1 and JM-a/CYT2 isoforms were always simultaneously expressed but at different ratios. We identified a positive prognostic impact on overall survival (OS) in triple-negative and event-free survival (EFS) in Her2 positive patients. This finding is independent of the absolute JM-a/CYT1 to JM-a/CYT2 expression ratio. In Her2 positive patients, Her4 expression only has a favorable effect in estrogen-receptor (ER)-positive but not in ER-negative individuals. Conclusion In summary, JM-a/CYT1 and JM-a/CYT2 but not JM-b isoforms of the Her4 receptor are simultaneously expressed in both triple-negative and Her2 positive breast cancer tissues. Although different expression ratios of the two JM-a isoforms did not reveal any additional information, Her4 expression basically indicates a prolonged EFS and OFS. An extended expression analysis that takes all Her receptor homologs, including the Her4 isoforms, into account might render more precisely the molecular diagnostics required for the development of optimized targeted therapies