Project description:Background: Glioblastoma is the most aggressive form of brain tumors showing resistance to treatment with various chemotherapeutic agents. The most effective way to eradicate glioblastoma requires the concurrent inhibition of multiple signaling pathways and target molecules involved in the progression of glioblastoma. Recently, we obtained a series of 1,2,3,4-tetrahydroisoquinoline alkaloids with potent anti-cancer activities, including ecteinascidin-770 (ET-770; the compound 1a) and renieramycin M (RM; the compound 2a) from Thai marine invertebrates, together with a 2’-N-4”-pyridinecarbonyl derivative of ET-770 (ET-770-DR; the compound 3). We attempted to characterize the molecular pathways responsible for cytotoxic effects of these compounds on a human glioblastoma cell line U373MG. Methods: We studied the genome-wide gene expression profile on microarrays and molecular networks by using pathway analysis tools of bioinformatics. Results: All of these compounds dissolved in dimethyl sulfoxide (DMSO) as a vehicle induced apoptosis of U373MG cells at nanomolar concentrations. The compound 3 reduced the expression of 417 genes and elevated the levels of 84 genes, while ET-770 downregulated 426 genes and upregulated 45 genes. RM decreased the expression of 274 genes and increased the expression of 9 genes. The set of 196 downregulated genes and 6 upregulated genes showed an overlap among all the compounds, suggesting an existence of the common pathways involved in induction of apoptosis. We identified the ErbB (EGFR) signaling pathway as one of the common pathways enriched in the set of downregulated genes, composed of PTK2, AKT3, and GSK3B serving as key molecules that regulate cell movement and the nervous system development. Furthermore, a GSK3B-specific inhibitor induced apoptosis of U373MG cells, supporting an anti-apoptotic role of GSK3B. Conclusion: Molecular network analysis is a useful approach not only to characterize the glioma-relevant pathways but also to identify the network-based effective drug targets.

Project description:In this current study, we aimed to produce and develop an affinity matrix for enzymes involved in the folate metabolism of kinetoplastids, effectively the “folateome”folateome of these parasites. This information will then be used to determine the molecular targets of compounds targeting folate metabolism, and to correlate this to phenotypic responses. To achieve this, a small library of clinical and literature anti-folate compounds were immobilized onto resins and used in “pull-down” experiments with and without test compound present, to ascertain proteins binding specifically to particular resins.8,10-11 While the initial focus of this project was to establish the kinetoplastid folateome, the approach has the potential to be extended to other organisms.

Project description:We have previously determined the insulin-like growth factor 1 receptor (IGF1R) to be amplified and overexpressed in paediatric glioblastoma. In order to probe the efficacy and mechanisms of action of various inhibitors of the receptor, we have carried out expression profiling of paediatric glioblastoma cells treated with 5x IC50 of the compounds PPP and NVP-AEW541 over a 24 hour time-course.

Project description:The transcriptome of human glioblastoma stem cells (GSCs) isolated from brain tumours of four patients (#5, #7, #8, #9) was comparatively analysed among them and in respect to common established human glioblastoma cell lines (U87MG, U373MG) and non-transformed human neural stem cells (NSCs). Cells were grown under optimal culture conditions, total RNA carefully isolated form the seven cell samples, and then subjected to global transcriptomic analysis in Array

Project description:Effects of six compounds on stem cell neural development.

Project description:In this study, the researchers isolated a colorless waxy solid from the chloroform extract of Allium stipitatum as Compound 1. They demonstrated compound 1 is a potent bactericidal agent against nonreplicating Mycobacterium tuberculosis. Using microarray technology the authors report gene expression profiles in cells treated with either 2, 5, or 10 ug/ml of compound 1 or an equivalent amount of DMSO as control for 6 h. Gene expression studies revealed that transcriptional profiles elicited in response to compound 1 were similar to the profiles generated during treatment of cells with compounds such as menadione and 8-quinolinol that result in oxidative stress. They included the thioredoxin system components encoded by trxB2 and trxC as well as several genes associated with the heat shock response such as clpB, sigH, dnaJ, dnaK, hsp, Rv0331, Rv3463, Rv3054c, and Rv1334-Rv1335. These results suggest that compound 1 possibly generates damaged proteins and other oxidative stress signals as part of its mechanism of action. The following is the full abstract of this published study. O'Donnell G, et al. (2009) J Nat Prod 72(3):360-365 From Allium stipitatum, three pyridine-N-oxide alkaloids (1-3) possessing disulfide functional groups were isolated. The structures of these natural products were elucidated by spectroscopic means as 2-(methyldithio)pyridine-N-oxide (1), 2-[(methylthiomethyl)dithio]pyridine-N-oxide (2), and 2,2'-dithio-bis-pyridine-N-oxide (3). The proposed structure of 1 was confirmed by synthetic S-methylthiolation of commercial 2-thiopyridine-N-oxide. Compounds 1 and 2 are new natural products, and 3 is reported for the first time from an Allium species. All compounds were evaluated for activity against fast-growing species of Mycobacterium, methicillin-resistant Staphylococcus aureus, and a multidrug-resistant (MDR) variants of S. aureus. Compounds 1 and 2 exhibited minimum inhibitory concentrations (MICs) of 0.5-8 mug/ml against these strains. A small series of analogues of 1 were synthesized in an attempt to optimize antibacterial activity, although the natural product had the most potent in vitro activity. In a whole-cell assay at 30 mug/ml, 1 was shown to give complete inhibition of the incorporation of (14)C-labeled acetate into soluble fatty acids, indicating that it is potentially an inhibitor of fatty acid biosynthesis. In a human cancer cell line antiproliferative assay, 1 and 2 displayed IC(50) values ranging from 0.3 to 1.8 muM with a selectivity index of 2.3 when compared to a human somatic cell line. Compound 1 was evaluated in a microarray analysis that indicated a similar mode of action to menadione and 8-quinolinol by interfering with the thioredoxin system and up-regulating the production of various heat shock proteins. This compound was also assessed in a mouse model for in vivo toxicity. A dose response design type examines the relationship between the size of the administered dose and the extent of the response of the organism(s). Compound Based Treatment: Allium stipitatum (garlic) extract dose_response_design

Project description:Narcosis or baseline toxicity is the inert toxicity of hydrophobic compounds, supposed to take place at the level of the cellular membranes. Based on the linear relationship between the toxicity (logEC50) and the hydrophobicity (logKow), class I and II narcotizing compounds are recognized, in which the latter group is assumed to exert additional toxic mechanisms by hydrogen bond donor acidity by their polar groups. Chlorinated anilines, which occur often in the environment as degradation products of certain pesticides , are considered to be narcotizing compounds. In this study the transcriptional responses of the soil arthropod Folsomia candida are investigated upon exposure to a series of anilines with increasing chlorination. A discrimination between class1 and class2 narcotizing compound is being made. Twenty-three day old Folsomia candida were exposed in LUFA 2.2 standard soil for two days to the EC50 concentrations of the following compounds: aniline, 4-chloroaniline, 3.5-dichloroaniline, 2,3,4-trichloroaniline, 2,3,5,6-tetrachloroaniline, pentachloroaniline and 1,2,3,4-tetrachlorobenzene.1,2,3,4-tetrachlrobenzene was included in the experimental design as a posiitive control of a narcotic class 1 compound. Four biological replicates were used for every treatment and a dye swap was used with the Cy3/Cy5 labels. This resulted in 32 samples which were analysed in 16 hybridisations executed in an interwoven loop design. The solvent (for spiking the soil) control was used as the reference treatment in the data analysis.

Project description:Fungal infections are a serious health problem in the clinic especially in the immunocompromised patient. Disease ranges from widespread superficial vulvovaginal infections to life-threatening systemic candidiasis. Especially for systemic mycoses only a limited arsenal of antimycotica are available, including azoles, polyenes, echinocandines and amphothericin B. Due to emerging resistance to standard therapy and significant side effects for some antimycotica there is a medical need for new antifungals in the clinic and general practice. In order to expand the arsenal of compounds with antifungal activities we screened compound libraries, including combinatorial libraries as well as more than 30 000 pure compounds derived from organic synthesis for antimycotic activity. In total more than 100 000 compounds were screened using an innovative AS (activity-selectivity) assay analyzing both the antifungal activity and the compatability with human cells at the same time. One promising hit, a Benzimidazol-2-yl-alkylamine derivative, was developed in a series of lead compounds showing potent antifungal activity. ((1S)-1-[1-(3-chlorobenzyl)-1H-benzimidazol-2-yl]-2-methylpropyl-amine) (EMC120B12) showed the highest antifungal activity and best compatability with human cells in several cell culture models and against a number of different yeasts and clinical isolates. Transcriptional profiling indicates that the newly discovered compound is a potential inhibitor of the ergosterol-pathway. In total, three biological replicates were performed. All experiments were performed as dye swaps. Thus, in total six arrays have been hybridzed. Hybridization experiments included an untreated reference sample and a sample of cells treated with ((1S)-1-[1-(3-chlorobenzyl)-1H-benzimidazol-2-yl]-2-methylpropyl-amine) (EMC120B12). The array included one technical replicate of each probe.

Project description:Lung cancer is the leading cause of cancer-related deaths and its treatment is based in chemotherapy using platinum containing compounds, mainly cisplatin (CDDP). Many patients show resistance to CDDP leading to treatment failure. To understand the mechanisms involved in CDDP resistance in lung cancer, we used CDDP-sensitive (A549) and –resistant (A549/CDDP) cells to identify newly synthesized proteins in response to CDDP treatment using BONCAT technique. In addition the steady-state proteome of A549 and A549/CDDP cells was also evaluated. It was identified 70 and 69 proteins upregulated by CDDP in A549 and A549/CDDP cells, respectively. The set of proteins upregulated by CDDP in both cells are associated to GO terms related to proteostasis, telomere maintenance cell, RNA processing, cytoskeleton and response to oxidative stress. Interestingly, the profile of biological processes enriched in A549 cells after CDDP treatment is very similar to those identified in the steady-state proteome of A549/CDDP cells, suggesting their positive selection in CDDP-resistant cells development. Therefore, this study of proteomic response to CDDP is relevant to the identification of potential protein targets to development of therapeutic strategies to block drug resistance pathways.

Project description:UPRT Transgenic and wildtype control cells of both HeLa and U373MG tissue culture lines were grown in the presence of 2mM 2,4-dithiouracil for either 6 hours (HeLa) or 8 hours (U373MG) and total RNA, not thiouracil-purified, from both transgenic and wildtype samples was compared on microarrays. An all pairs experiment design type is where all labeled extracts are compared to every other labeled extract. Keywords: all_pairs