Project description:Background: Pterostilbene, a naturally occurring phenolic compound produced by agronomically important plant genera such as Vitis and Vacciunium, is a phytoalexin exhibiting potent antifungal activity. Additionally, recent studies have demonstrated several important pharmacological properties associated with pterostilbene. Despite this, a systematic study of the effects of pterostilbene on eukaryotic cells at the molecular level has not been previously reported. Thus, the aim of the present study was to identify the cellular pathways affected by pterostilbene by performing transcript profiling studies, employing the model yeast Saccharomyces cerevisiae. Methods: S. cerevisiae strain S288C was exposed to pterostilbene at the IC50 concentration (70 uM) for one generation (3 h). Transcript profiling experiments were performed on three biological replicate samples using the Affymetrix GeneChip Yeast Genome S98 Array. The data were analyzed using the statistical methods available in the GeneSifter microarray data analysis system. To validate the results, eleven differentially expressed genes were further examined by quantitative real-time RT-PCR, and S. cerevisiae mutant strains with deletions in these genes were analyzed for altered sensitivity to pterostilbene. Results: Transcript profiling studies revealed that pterostilbene exposure significantly down-regulated the expression of genes involved in methionine metabolism, while the expression of genes involved in mitochondrial functions, drug detoxification, and transcription factor activity were significantly up-regulated. Additional analyses revealed that a large number of genes involved in lipid metabolism were also affected by pterostilbene treatment. Conclusions: Using transcript profiling, we have identified the cellular pathways targeted by pterostilbene, an analog of resveratrol. The observed response in lipid metabolism genes is consistent with its known hypolipidemic properties, and the induction of mitochondrial genes is consistent with its demonstrated role in apoptosis in human cancer cell lines. Furthermore, our data show that pterostilbene has a significant effect on methionine metabolism, a previously unreported effect for this compound. Keywords: Transcript profiling, S. cerevisiae, pterostilbene

Project description:Transcription factor (TF)-mediated regulation of genes is often disrupted during carcinogenesis. The DNA methylation state of TF-binding sites may dictate transcriptional activity of corresponding genes. Stilbenoid polyphenols, such as pterostilbene (PTS), have been shown to exert anti-cancer action by remodeling DNA methylation and gene expression patterns of tumor suppressor genes and oncogenes. However, the mechanisms behind these effects still remain unclear. Here, the dynamics between oncogenic TF, OCT1, binding and de novo DNA methyltransferase, DNMT3B, binding in PTS-treated MCF10CA1a invasive breast cancer cells has been explored. Using chromatin immunoprecipitation (ChIP) followed by next generation sequencing, we determined 47 gene regulatory regions with decreased OCT1 binding and enriched DNMT3B binding in response to PTS. Most of those genes were found to have oncogenic and pro-metastatic functions. PRKCA, a gene encoding for protein kinase C alpha (PKC-alpha), was selected for further mechanistic investigation due to its functional and regulatory connection with numerous oncogenic pathways and cancer-driving processes. Two additional genes, troponin T2 (TNNT2) and DXZ4 associated non-coding transcript 2 (DANT2), were also investigated as they demonstrated some of the highest increase in DNMT3B occupancy and novel oncogenic functions. PTS led to the recruitment of DNMT3B to the PRKCA promoter region and TNNT2 and DANT2 enhancers at loci that are occupied by OCT1 in vehicle-treated cells. Substantial decrease in OCT1 occupancy with increased DNMT3B binding were accompanied by PRKCA promoter and TNNT2 and DANT2 enhancer hypermethylation, and gene silencing. Interestingly, hypermethylation of the regulatory regions of the genes in response to PTS was not detected in DNMT3B-CRISPR knockout MCF10CA1a breast cancer cells, which indicates DNMT3B-dependent methylation of PRKCA, TNNT2, and DANT2 upon PTS treatment. Our findings provide a better understanding of mechanistic players and their gene targets that possibly contribute to the anti-cancer action of stilbenoid polyphenols.

Project description:Background: Pterostilbene, a naturally occurring phenolic compound produced by agronomically important plant genera such as Vitis and Vacciunium, is a phytoalexin exhibiting potent antifungal activity. Additionally, recent studies have demonstrated several important pharmacological properties associated with pterostilbene. Despite this, a systematic study of the effects of pterostilbene on eukaryotic cells at the molecular level has not been previously reported. Thus, the aim of the present study was to identify the cellular pathways affected by pterostilbene by performing transcript profiling studies, employing the model yeast Saccharomyces cerevisiae. Methods: S. cerevisiae strain S288C was exposed to pterostilbene at the IC50 concentration (70 uM) for one generation (3 h). Transcript profiling experiments were performed on three biological replicate samples using the Affymetrix GeneChip Yeast Genome S98 Array. The data were analyzed using the statistical methods available in the GeneSifter microarray data analysis system. To validate the results, eleven differentially expressed genes were further examined by quantitative real-time RT-PCR, and S. cerevisiae mutant strains with deletions in these genes were analyzed for altered sensitivity to pterostilbene. Results: Transcript profiling studies revealed that pterostilbene exposure significantly down-regulated the expression of genes involved in methionine metabolism, while the expression of genes involved in mitochondrial functions, drug detoxification, and transcription factor activity were significantly up-regulated. Additional analyses revealed that a large number of genes involved in lipid metabolism were also affected by pterostilbene treatment. Conclusions: Using transcript profiling, we have identified the cellular pathways targeted by pterostilbene, an analog of resveratrol. The observed response in lipid metabolism genes is consistent with its known hypolipidemic properties, and the induction of mitochondrial genes is consistent with its demonstrated role in apoptosis in human cancer cell lines. Furthermore, our data show that pterostilbene has a significant effect on methionine metabolism, a previously unreported effect for this compound. Experiment Overall Design: S. cerevisiae S288C cells at OD 0.2 were treated with either pterostilbene (Ptero) at IC50 concentration (70 uM), or solvent (0.25% DMSO), allowed to grow to OD 0.5, then harvested and frozen. Three biological replicate samples were analyzed for each treatment.

Project description:A soy diet worsens the progression of an inherited form of hypertrophic cardiomyopathy (HCM) in male mice when compared to casein-fed mice. Females are largely resistant to this diet effect and better preserve cardiac function. We hypothesized that the abundant phytoestrogens found in soy are mainly responsible for this diet-dependent phenotype. Indeed, feeding male mice a phytoestrogen-supplemented casein-based diet can recapitulate the negative outcome seen when male mice are fed a standard soy-based diet. To gain mechanistic insights into disease pathogenesis, we used Affymetrix microarrays to profile gene expression in left ventricular tissue from 2 month old HCM male and female mice as well as wild-type littermate controls. These mice were fed a phytoestrogen (genistein + daidzein)-supplemented casein-based diet. We identified a number of molecular pathways that could explain both the male and female phenotypes.

Project description:Transcriptional profiling of Candida albicans comparing pterostilbene treated cells with untreated cells Wild type Candida albicans strain SC5314 was selected to carry out the expression profile microarray. Two-condition experiment, pterostilbene treated vs. untreated cells. Biological replicates: 3 control, 3 pterostilbene treated, independently grown and harvested. One replicate per array.

Project description:A soy diet worsens the progression of an inherited form of hypertrophic cardiomyopathy (HCM) in male mice when compared to casein-fed mice. Females are largely resistant to this diet effect and better preserve cardiac function. We hypothesized that the abundant phytoestrogens found in soy are mainly responsible for this diet-dependent phenotype. Indeed, feeding male mice a phytoestrogen-supplemented casein-based diet can recapitulate the negative outcome seen when male mice are fed a standard soy-based diet. To gain mechanistic insights into disease pathogenesis, we used Affymetrix microarrays to profile gene expression in left ventricular tissue from 2 month old HCM male and female mice as well as wild-type littermate controls. These mice were fed a phytoestrogen (genistein + daidzein)-supplemented casein-based diet. We identified a number of molecular pathways that could explain both the male and female phenotypes. Hearts from male and female wild-type or HCM C57BL/6 mice fed a phytoestrogen-supplemented (genistein and daidzein mix) casein-based diet were excised at 2 months of age. Total RNA was extracted from left ventricles. Biotin-labeled amplified RNA was hybridized to Affymetrix Mouse Genome 430 2.0 microarrays.

Project description:Transcriptional profiling of Candida albicans comparing pterostilbene treated cells with untreated cells

Project description:To investigate the effect of Pterostilbene(PTE) on gene expression after intracerebral hemorrhage injury, we employed RNA sequencing (RNA-seq) to profile the mRNA expression ensuing PTE treatment after ICH. Different gene distribution could be clearly seen on the volcano plot between diferent comparisions among Sham, ICH, and ICH+PTE group. Finally, we showed that 1021 shared genes overlapping between those differentially expressed genes, which was reversed by PTE treatment

Project description:Using genome-wide CRISPR-Cas9 screens and other cell-based assays, we show that the pro-longevity agent resveratrol and its analogue pterostilbene induce a genetic signature of replicative stress that is similar to hydroxyurea

Project description:We used gene expression profiling to investigate whether the molecular effects induced by estrogens of different provenance are intrinsically similar. In this article we show that the physiologic estrogen 17-beta-estradiol, the phytoestrogen genistein, and the synthetic estrogen diethylstilbestrol alter the expression of the same 179 genes in the intact immature mouse uterus under conditions where each chemical has produced an equivalent gravimetric and histologic uterotrophic effect, using the standard 3-day assay protocol. Data are also presented indicating the limitations associated with comparison of gene expression profiles for different chemicals at times before the uterotrophic effects are fully realized. We conclude that the case has yet to be made for regarding synthetic estrogens as presenting a unique human hazard compared with phytoestrogens and physiologic estrogens. Key words: diethylstilbestrol, estrogen, gene expression, genistein, microarray, phytoestrogen, toxicogenomics, uterus.