The emergence of resistance to imatinib (IM) mediated by mutations in the BCR-ABL domain has become a major challenge in the treatment of chronic myeloid leukemia (CML). Here, we report on studies performed with a novel small molecule inhibitor, PHA-739358, which selectively targets Bcr-Abl and Aurora kinases A to C. PHA-739358 exhibits strong antiproliferative and proapoptotic activity against a broad panel of human BCR-ABL-positive and -negative cell lines and against murine BaF3 cells ectopically ex-
Pancreatic ductal adenocarcinoma (PDAC) is one of the most fatal human tumors, with radical surgical resection as the only curative treatment option. However, resection is only possible in a small fraction of patients, and about 80% of the patients develop recurrencies. PDAC development is facilitated by the cytokine interleukin-6 (IL-6), which acts via classic and transsignaling. Both pathways are inhibited by the anti-IL-6-receptor antibody tocilizumab, whereas the fusion protein sgp130Fc specifically blocks trans-signaling. Here, we show that conservative or adjuvant therapy with both inhibitors reduces tumor growth in an orthotopic model of human Colo357 cells in SCID/bg mice. In the conservative setting, median primary tumor weight was reduced 2.4-fold for tocilizumab and 4.4-fold for sgp130Fc. sgp130Fc additionally led to a decrease in microvessel density, which was not observed with tocilizumab. In the adjuvant therapeutic setting after surgical resection of the primary tumor, treatment with tocilizumab or sgp130Fc decreased the local recurrence rate from 87.5% in the control group to 62.5 or 50%, respectively. Furthermore, the median weight of the local recurrent tumors was clearly diminished, and both inhibitors reduced the number of distant metastases. A significant reduction of tumor weight and metastases-comparable to gemcitabine treatment-was also observed with both inhibitors in another model using the poorly differentiated PancTuI cells. Our findings demonstrate the inhibition of IL-6 as a new treatment option in PDAC.
Patients with advanced stages of hepatocellular carcinoma (HCC) face a poor prognosis. Although encouraging clinical results have been obtained with multikinase inhibitor sorafenib, the development of improved therapeutic strategies for HCC remains an urgent goal. Aurora kinases are key regulators of the cell cycle, and their uncontrolled expression promotes aneuploidy and tumor development. In tissue microarray analyses, we detected aurora-A kinase expression in all of the examined 93 human HCC samples, whereas aurora-B kinase expression levels significantly correlated with the proliferation index of HCCs. In addition, two human HCC cell lines (Huh-7 and HepG2) were tested positive for aurora-A and -B and revealed Ser10 phosphorylation of histone H3, indicating an increased aurora-B kinase activity. The antiproliferative features of a novel aurora kinase inhibitor, PHA-739358, currently under investigation in phase 2 clinical trials for other solid tumors, were examined in vitro and in vivo. At concentrations exceeding 50 nM, PHA-739358 completely suppressed tumor cell proliferation in cell culture experiments and strongly decreased histone H3 phosphorylation. Cell cycle inhibition and endoreduplication were observed at 50 nM, whereas higher concentrations led to a complete G(2)/M-phase arrest. In vivo, administration of PHA-739358 resulted in significant tumor growth inhibition at a well-tolerated dose. In combination with sorafenib, additive effects were observed. Remarkably, when tumors restarted to grow under sorafenib monotherapy, subsequent treatment with PHA-739358 induced tumor shrinkage by up to 81%. Thus, targeting aurora kinases with PHA-739358 is a promising therapeutic strategy administered alone or in combination with sorafenib for patients with advanced stages of HCC.
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