Aurora kinase A mediates epithelial ovarian cancer cell migration and adhesion.

Aurora kinase A (AURKA) localizes to centrosomes and mitotic spindles where it mediates mitotic progression and chromosomal stability. Overexpression of AURKA is common in cancer, resulting in acquisition of alternate non-mitotic functions. In the current study, we identified a novel role for AURKA in regulating ovarian cancer cell dissemination and evaluated the efficacy of an AURKA-selective small molecule inhibitor, alisertib (MLN8237), as a single agent and combined with paclitaxel using an orthotopic xenograft model of epithelial ovarian cancer (EOC). Ovarian carcinoma cell lines were used to evaluate the effects of AURKA inhibition and overexpression on migration and adhesion. Pharmacological or RNA interference-mediated inhibition of AURKA significantly reduced ovarian carcinoma cell migration and adhesion and the activation-associated phosphorylation of the cytoskeletal regulatory protein SRC at tyrosine 416 (pSRC(Y416)). Conversely, enforced expression of AURKA resulted in increased migration, adhesion and activation of SRC in cultured cells. In vivo tumor growth and dissemination were inhibited by alisertib treatment as a single agent. Moreover, combination of alisertib with paclitaxel, an agent commonly used in treatment of EOC, resulted in more potent inhibition of tumor growth and dissemination compared with either drug alone. Taken together, these findings support a role for AURKA in EOC dissemination by regulating migration and adhesion. They also point to the potential utility of combining AURKA inhibitors with taxanes as a therapeutic strategy for the treatment of EOC patients.

Evaluation of the allergenicity and antigenicity of bovine-milk alphas1-casein using extensively purified synthetic peptides.

Alphas1-Casein (CAS1_BOVIN), the major allergen of cow's milk (CM), is widely used as hydrolysates in infant diet formulae and additive to other processed food items. To date, most of the reported B-cell epitope mapping were performed on polyethylene pins or cellulose-derivative membrane. We sought to locate the motifs critical for human-specific IgE and rabbit polyclonal IgG binding using extensively purified CAS1_BOVIN, synthetic peptides and derivatives. Thirteen overlapping peptides covering the whole CAS1_BOVIN encompassing 17 : 20 amino acid (AA) were synthesized by f-moc AA solid-phase polyamide peptide synthesis. In addition, six cyanogen bromide (CNBr) cleavage fragments were prepared. Limited hydrolysis, oxidized and reduced/alkylated derivatives were also produced. The preparations were purified by ion exchange, gel filtration chromatography, reversed phase and high-performance liquid chromatography. The homogeneity was visualized by sodium dodecyl sulfate (SDS) and poly acryl amide gel electrophoresis (PAGE) followed by IgE and IgG immunoblotting. IgE binding was measured by Biotin Streptavidin (Bio/strep) fluoro enzyme immuno assay (FEIA) or ELISA-inhibition. Eighteen CM allergy (CMA) sera from 45 clinically examined children (Melbourne) and five adults (Bergen) were selected. Individual sera and pools were used for mapping IgE-binding epitopes. Rabbit IgG sera and pools were used for locating the antigenic sites of the molecule. Results indicated that all the individual CMA sera and pools recognized the intact molecule and three of the CNBr fragments as major antibody-binding allergens. The N- and C-terminal peptides (CAS 16-35; CAS 136-155) showed high IgE-binding affinity. CAS 1-18 and CAS 181-199 showed high IgG bindings. Considering the diversity of the antibody specificities, a reasonable agreement between IgE and IgG epitopes were found at the N- and C-terminals of CAS1_BOVIN. Mapping IgE B-cell epitopes by direct Bio/strep FEIA allowed the development of a sensitive modified technique for detecting unlabelled, casein immune dominant peptides in food products.

Glue secretion in the Drosophila salivary gland: a model for steroid-regulated exocytosis.

Small hydrophobic hormones like steroids control many tissue-specific physiological responses in higher organisms. Hormone response is characterized by changes in gene expression, but the molecular details connecting target-gene transcription to the physiology of responding cells remain elusive. The salivary glands of Drosophila provide an ideal model system to investigate gaps in our knowledge, because exposure to the steroid 20-hydroxyecdysone (20E) leads to a robust regulated secretion of glue granules after a stereotypical pattern of puffs (activated 20E-regulated genes) forms on the polytene chromosomes. Here, we describe a convenient bioassay for glue secretion and use it to analyze mutants in components of the puffing hierarchy. We show that 20E mediates secretion through the EcR/USP receptor, and two early-gene products, the rbp(+) function of BR-C and the Ca2+ binding protein E63-1, are involved. Furthermore, we demonstrate that 20E treatment of salivary glands leads to Ca2+ elevations by a genomic mechanism and that elevated Ca2+ levels are required for ectopically produced E63-1 to drive secretion. The results presented establish a connection between 20E exposure and changes in Ca2+ levels that are mediated by Ca2+ effector proteins, and thus establish a mechanistic framework for future studies.