Project description:The aim was to investigate mechanisms contributing to quercetin’s previously described effects on cell-proliferation and -differentiation, which contradicted its proposed anti-carcinogenic potency. In a 10-day experiment, 40 µM quercetin stabilized by 1mM ascorbate reduced Caco-2 differentiation up to 50% (P<0.001). Caco-2 RNA from days 5 and 10, hybridized on HG-U133A2.0 Affymetrix® GeneChips®, showed 1,743 affected genes on both days (P<0.01). All 14 Caco-2 differentiation-associated genes showed decreased expression (P<0.01), including intestinal alkaline phosphatase that was confirmed technically (qRT-PCR) and functionally (enzyme-activity). The 1,743 genes contributed to 27 affected pathways (P<0.05) categorized under 6 gene ontology (GO) processes, including apoptosis and cell-cycle. Genes within these GO-processes showed fold changes that suggest increased cell-survival and -proliferation. Furthermore, quercetin downregulated expression of genes involved in tumor-suppression and phase II metabolism, and upregulated oncogenes. Gene expression changes mediated by ascorbate-stabilized quercetin were concordant with those occurring in human colorectal carcinogenesis (≈ 80-90%), but were opposite to those previously described for Caco-2 cells exposed to quercetin in the absence of ascorbate (≈ 75-90%). In conclusion, gene expression among Caco-2 cells exposed to ascorbate-stabilized quercetin showed mechanisms contrary to what is expected for a cancer-preventive agent. Whether this unexpected in vitro effect is relevant in vivo, remains to be elucidated. Experiment Overall Design: Caco-2 cells were harvested on days 5 and 10 post-confluency. Per day, fold changes were calculated as quercetin vs. control.

Project description:Human endothelial cellular models are useful to disentangle the pathophysiological role of dysfunctional endothelium in the development of cardiovascular (CV) disease and organ damage in T2D. Here, we performed a RNAseq of human umbilical vein endothelial cells (HUVECs) undergoing replicative senescence and exposed to high glucose (25 mM) to investigate the combined effects of replicative senescence and high glucose on the transcriptional landscape of these cells. To gain insight into the molecular mechanisms driving the acquisition of a senescent phenotype following exposure to HG, we performed a RNA-seq assay on control (Ctr) and replicative senescent (Sen) HUVECs cultivated in presence/absence of HG culture medium (total number of samples = 12; number of samples in each cell type-medium condition group = 3) using the NovaSeq 6000 Illumina system. Differential expression analysis was performed in R environment (version 4.2.2) using the limma and edgeR Bioconductor R packages.

Project description:The l-galactose (Smirnoff-Wheeler) pathway represents the major route to l-ascorbic acid (vitamin C) biosynthesis in plants. Arabidopsis thaliana VTC2 and its paralogue VTC5 function as GDP-l-galactose phosphorylases converting GDP-l-galactose to l-galactose-1-P, thus catalyzing the first committed step in the biosynthesis of l-ascorbate. Here we report that the l-galactose pathway of ascorbate biosynthesis described in higher plants is conserved in green algae. The Chlamydomonas reinhardtii genome encodes all the enzymes required for vitamin C biosynthesis via the Smirnoff-Wheeler pathway. We have characterized recombinant C. reinhardtii VTC2 as an active GDP-l-galactose phosphorylase. C. reinhardtii cells exposed to oxidative stress show increased VTC2 mRNA and l-ascorbate levels. We have also shown that enzymatic components of the ascorbate-glutathione system (e.g. ascorbate peroxidase, Mn superoxide dismutase, dehydroascorbate reductase) are up-regulated in response to increased oxidative stress. These results indicate that C. reinhardtii VTC2, like its plant homologs, is a key enzyme in ascorbate biosynthesis in green algae and together with components of the ascorbate recycling system represents the major route in providing protective levels of ascorbate in oxidatively stressed algal cells. Our results suggest that C. reinhardtii cells exposed to oxidative stress conditions produce more ascorbate both by de novo synthesis (Smirnoff-Wheeler pathway) and by recycling via the ascorbate-glutathione cycle. Sampling of Chlamydomonas 2137 exposed to hydrogen peroxide

Project description:Human mesenchymal stem cells (MSCs) have been isolated from adult adipose tissues, and were shown to have ability to differentiate into multiple mesodermal lineages as well as non-mesodermal lineages. MSC had also been isolated from lipoma, and the lipoma-derived MSCs (LM6) showed very similar stem cell characteristics to adipose-derived MSCs (AM3). However, LM6 cells exhibited a higher cumulative population doubling levels as compared with AM3 cells. The expression profiles of both mRNAs and microRNAs (miRNAs) from AM3 and LM6 cells were compared to find considerable similarities except that miRNAs miR-99a and miR-152 were abundantly expressed in AM3, but absent in LM6 cells. The abundantly differentially expressed genes HAS2, VNN1, SLC16A6 and COL11A1 in LM6 cells were shown to be targets of miRNAs miR-99a and/or miR-152. Several additional genes were also found to be targets of miRNAs miR-99a and miR-152, as well as let-7g, let-7i, miR-199a, mir-134 and miR-374. The highly up-regulated expression of miRNA target genes such as SLC16A6, COL11A1 and TRHDE, as well as several other genes such as sushi domain containing 2, keratin associated proteins and tumor necrosis factor family, may explain the higher proliferation potential in LM6 cells compared with AM3 cells. Keywords: genetic modification The expression profiles of both mRNAs and miRNAs from the same RNA samples of AM3 and LM6 cells were determined and compared in order to understand the genetic bases for their similarities and differences.

Project description:To improve our understanding of soil moisture stress, we performed RNA-Seq analysis using roots from four-week-old rice seedlings grown in soil that had been subjected o drought conditions for 2 to 3 d. From the upregulated genes, we found a T-DNA insertional mutant of rice phytochrome B (OsPhyB) that negatively regulates plant’s degree of tolerance to water deficiencies through its control of ascorbate peroxidase and catalase mediating ROS processing machinery besides the control of total leaf area and stomatal density as previously reported.

Project description:Individualized outcome prediction classifiers were successfully constructed through expression profiling of 1918 genes connected with lipid metabolism in yeast strain overexpressed of fatty acid biosynthesis gene In the study presented here, expression profiles of wild type and ACC-overexpressed wild type yeast strain were well-clustered by profiles- and gene similarities. It was analyzed the gene expression profile of ACC-overexpressing as compared with those of wild type. The expression levels between wild type(WT) and ACC-overexpressed wild type(ACC) were compared individually three times.

Project description:To better understand the molecular mechanisms underlying Haemophilus ducreyi infection in humans, here we determined the transcriptional profile of H. ducreyi in human lesions using RNA-Seq and compared it to that of in vitro growth. We were able to show that the in vivo transcriptome did not resemble that of in vitro growth. Compared to the inoculum, H. ducreyi harvested from pustules differentially expressed ~120 genes, of which 68 were upregulated. A large proportion of the upregulated genes encoded homologs of proteins involved in nutrient transport, alternative carbon pathways, growth arrest response, heat shock response, and DNA recombination. H. ducreyi upregulated few genes or operons (hgbA, flp-tad, and lspB-lspA2) required for human infection; expression of these genes is known to increase under nutrient stress. Homologs of several genes involved in anaerobic metabolism and ascorbate utilization were upregulated in vivo, suggesting that the organism is adjusting its metabolism to anaerobiosis in vivo. RNA from Haemophilus ducreyi infected pustules were collected from four volunteers and performed RNA-Seq.

Project description:The function of ascorbate peroxidase-related (APX-R) proteins, present in all green photosynthetic eukaryotes, remains unclear. This study focuses on APX-R from Chlamydomonas reinhardtii, namely ascorbate peroxidase 2 (APX2). We showed that apx2 mutants exhibited a faster oxidation of the PSI primary electron donor, P700, upon sudden light increase and a slower re-reduction rate compared to the wild type, pointing to a limitation of plastocyanin. Spectroscopic, proteomic, and immunoblot analyses confirmed that the phenotype was a result of lower levels of plastocyanin in the apx2 mutants. The redox state of P700 did not differ between wild type and apx2 mutants when the loss of function in plastocyanin was nutritionally complemented by growing apx2 mutants under copper deficiency. In this case, cytochrome c6 functionally replaces plastocyanin, confirming that lower levels of plastocyanin was the primary defect caused by absence of APX2. Overall, the results presented here shed light on an unexpected regulation of plastocyanin level under copper replete conditions, induced by ascorbate peroxidase 2 in Chlamydomonas

Project description:To identify chloroplastic H2O2-responseive genes, an estrogen-inducible RNAi method was used for silencing of tAPX, a H2O2-scavenging enzyme in chloroplasts. At 48 h after treatment with estrogen, the expression of tAPX was silenced in the IS-tAPX-19-23 plants, but not in the IS-GUS-2-17 plants (negative control), resulting a large change in gene expression. These genes are candidates for chloroplastic H2O2-responseive genes.

Project description:The PDE12 gene codes for the poly(A)-specific exoribonuclease, involved in the quality control of mitochondrial non-coding RNAs. Here, we report that disease-causing PDE12 variants in three unrelated families are associated with mitochondrial respiratory chain deficiencies. Clinically, they presented in utero and within the neonatal period with muscle and brain involvement leading to marked cytochrome c oxidase (COX) deficiency in muscle and severe lactic acidosis. To analyze perturbations in specific cellular pathways contributing to pathogenesis in our patient cohort, we used Affymetrix Clariom D transcriptome arrays to study the RNA levels in fibroblasts derived from two patient (Patient 2 and patient 3), comparing these to age-matched controls.