Your search keyword '"Alexi, Xanthippi"' showing total 3 results

1. Pharmacoproteomic Study of the Natural Product EbenfuranIII in DU-145 Prostate Cancer Cells: The Quantitative and TemporalInterrogation of Chemically Induced Cell Death at the Protein Level.

Author

Roumeliotis, Theodoros I., Halabalaki, Maria, Alexi, Xanthippi, Ankrett, Dyan, Giannopoulou, Eugenia G., Skaltsounis, Alexios-Leandros, Sayan, Berna S., Alexis, Michael N., Townsend, Paul A., and Garbis, Spiros D.

Published

2013

2. Pharmacoproteomic study of the natural product Ebenfuran III in DU-145 prostate cancer cells: the quantitative and temporal interrogation of chemically induced cell death at the protein level.

Author

Roumeliotis TI, Halabalaki M, Alexi X, Ankrett D, Giannopoulou EG, Skaltsounis AL, Sayan BS, Alexis MN, Townsend PA, and Garbis SD

Subjects

Apoptosis Regulatory Proteins metabolism, Calpain metabolism, Cell Death drug effects, Cell Line, Tumor, Chromatography, Reverse-Phase methods, Cluster Analysis, Humans, Male, Membrane Proteins metabolism, Mitogen-Activated Protein Kinase 1 metabolism, Prostatic Neoplasms pathology, Proteins analysis, Tandem Mass Spectrometry methods, rab GTP-Binding Proteins metabolism, rab7 GTP-Binding Proteins, Antineoplastic Agents, Phytogenic pharmacology, Benzofurans pharmacology, Prostatic Neoplasms drug therapy, Prostatic Neoplasms metabolism, Proteins metabolism, Resorcinols pharmacology

Abstract

A naturally occurring benzofuran derivative, Ebenfuran III (Eb III), was investigated for its antiproliferative effects using the DU-145 prostate cell line. Eb III was isolated from Onobrychis ebenoides of the Leguminosae family, a plant endemic in Central and Southern Greece. We have previously reported that Eb III exerts significant cytotoxic effects on certain cancer cell lines. This effect is thought to occur via the isoprenyl moiety at the C-5 position of the molecule. The study aim was to gain a deeper understanding of the pharmacological effect of Eb III on DU-145 cell death at the translational level using a relative quantitative and temporal proteomics approach. Proteins extracted from the cell pellets were subjected to solution phase trypsin proteolysis followed by iTRAQ-labeling. The labeled tryptic peptide extracts were then fractionated using strong cation exchange chromatography and the fractions were analyzed by nanoflow reverse phase ultraperformance liquid chromatography-nanoelectrospray ionization-tandem mass spectrometry analysis using a hybrid QqTOF platform. Using this approach, we compared the expression levels of 1360 proteins analyzed at ≤ 1% global protein false discovery rate (FDR), commonly present in untreated (control, vehicle only) and Eb III-treated cells at the different exposure time points. Through the iterative use of Ingenuity Pathway Analysis with hierarchical clustering of protein expression patterns, followed by bibliographic research, the temporal regulation of the Calpain-1, ERK2, PAR-4, RAB-7, and Bap31 proteins were identified as potential nodes of multipathway convergence to Eb III induced DU-145 cell death. These proteins were further verified with Western blot analysis. This gel-free, quantitative 2DLC-MS/MS proteomics method effectively captured novel modulated proteins in the DU-145 cell line as a response to Eb III treatment. This approach also provided greater insight to the multifocal and combinatorial signaling pathways implicated in Eb III-induced cell death.

Published

2013

3. Novel dehydroepiandrosterone derivatives with antiapoptotic, neuroprotective activity.

Author

Calogeropoulou T, Avlonitis N, Minas V, Alexi X, Pantzou A, Charalampopoulos I, Zervou M, Vergou V, Katsanou ES, Lazaridis I, Alexis MN, and Gravanis A

Subjects

Animals, Cell Line, Tumor, Cell Proliferation drug effects, Dehydroepiandrosterone adverse effects, Dehydroepiandrosterone pharmacology, Estrogen Receptor alpha agonists, Estrogen Receptor alpha biosynthesis, Estrogen Receptor beta agonists, Estrogen Receptor beta biosynthesis, Humans, Models, Molecular, Molecular Conformation, Neurons cytology, Neurons drug effects, Neuroprotective Agents adverse effects, Neuroprotective Agents pharmacology, Rats, Structure-Activity Relationship, Apoptosis drug effects, Dehydroepiandrosterone analogs & derivatives, Dehydroepiandrosterone chemical synthesis, Neuroprotective Agents chemical synthesis

Abstract

DHEA analogues with modifications at positions C3 or C17 were synthesized and evaluated for neuroprotective activity against the neural-crest-derived PC12 cell model of serum deprivation-induced apoptosis. The most potent compounds were the spiro-epoxy derivatives 17beta-spiro[5-androstene-17,2'-oxiran]-3beta-ol (20), (20S)-3beta,21-dihydroxy-17beta,20-epoxy-5-pregnene (23), and (20R)-3beta,21-dihydroxy-17alpha,20-epoxy-5-pregnene (27) with IC(50) values of 0.19 +/- 0.01, 99.0 +/- 4.6, and 6.4 +/- 0.3 nM, respectively. Analogues 20, 23, and 27, up to the micromolar range of concentrations, were unable to activate estrogen receptor alpha and beta (ERalpha and ERbeta) or to interfere with ER-dependent gene expression significantly. In addition, they were unable to stimulate the growth of Ishikawa, MCF-7, and LNCaP cells. Our results suggest that the spiro-epoxyneurosteroid derivatives 20, 23, and 27 may prove to be lead molecules for the synthesis of novel neuroprotective agents.

Published

2009