This SuperSeries is composed of the SubSeries listed below.
General detoxification and stress responses are mediated by oxidized lipids through TGA transcription factors in Arabidopsis.
No sample metadata fields
View Samples12-oxo-phytodienoic acid (OPDA) and phytoprostane A1 (PPA1) are cyclopentenone oxylipins that are formed via the enzymatic
General detoxification and stress responses are mediated by oxidized lipids through TGA transcription factors in Arabidopsis.
No sample metadata fields
View Samples12-Oxo-phytodienoic acid (OPDA) and several phytoprostanes are structurally related cyclopentenone oxylipins that can be formed via the enzymatic jasmonate pathway and a non-enzymatic, free radical-catalyzed pathway, respectively. To elucidate the biological activities of phytoprostanes in comparison to OPDA as well as the metabolism we performed genome-wide expression analysis.
General detoxification and stress responses are mediated by oxidized lipids through TGA transcription factors in Arabidopsis.
No sample metadata fields
View SamplesWe co-isolated hair follicle placode and dermal condensate cells along with other specific cell types from E14.5 embryonic mouse skin. With next-generation RNA-sequencing we defined gene expression patterns in the context of the entire embryonic skin. Overall design: FACS was used to isolate specific cell types from E14.5 embryonic mouse skin.
An Integrated Transcriptome Atlas of Embryonic Hair Follicle Progenitors, Their Niche, and the Developing Skin.
No sample metadata fields
View SamplesMicroRNA microarrays and RNA expression arrays were used to identify functional signaling between neural stem cell progenitor cells (NSPC) and brain endothelial cells (EC) that are critical during embryonic development and tissue repair following brain injury.
The role of microRNAs in neural stem cell-supported endothelial morphogenesis.
Specimen part, Disease, Treatment
View SamplesAging is associated with functional decline of hematopoietic stem cells (HSC) as well as an increased risk of myeloid malignancies. We performed an integrative characterization of epigenomic and transcriptomic changes, including single-cell RNA-seq, during normal human aging. Lineage-CD34+CD38- cells (HSC-enriched, HSCe) undergo age-associated epigenetic reprogramming consisting of redistribution of DNA methylation and reductions in H3K27ac, H3K4me1 and H3K4me3. This reprogramming of aged HSCe globally targets developmental and cancer pathways which are comparably altered in AML of all ages; encompassing loss of 4,656 active enhancers, 3,091 bivalent promoters, and deregulation of several epigenetic modifiers and key hematopoietic transcription factors, such as KLF6, BCL6 and RUNX3. Notably, in vitro downregulation of KLF6 results in impaired differentiation, increased colony forming potential and changes in expression that recapitulate aging and leukemia signatures. Thus, age-associated epigenetic reprogramming may form a predisposing condition for the development of age-related AML. Overall design: We profiled the human HSCe (Lineage-, CD34+, CD38-) transcriptome with aging at the single cell level. Single-cell RNAseq was performed on FACS isolated human bone marrow derived HSCe from 5 young (24-37 yo) and 4 aged donor (64-71 yo). Donors had no known hematological malignancy.
Aging Human Hematopoietic Stem Cells Manifest Profound Epigenetic Reprogramming of Enhancers That May Predispose to Leukemia.
Specimen part, Subject
View SamplesAging is associated with functional decline of hematopoietic stem cells (HSC) as well as an increased risk of myeloid malignancies. We performed an integrative characterization of epigenomic and transcriptomic changes, including single-cell RNA-seq, during normal human aging. Lineage-CD34+CD38- cells (HSC-enriched, HSCe) undergo age-associated epigenetic reprogramming consisting of redistribution of DNA methylation and reductions in H3K27ac, H3K4me1 and H3K4me3. This reprogramming of aged HSCe globally targets developmental and cancer pathways which are comparably altered in AML of all ages; encompassing loss of 4,656 active enhancers, 3,091 bivalent promoters, and deregulation of several epigenetic modifiers and key hematopoietic transcription factors, such as KLF6, BCL6 and RUNX3. Notably, in vitro downregulation of KLF6 results in impaired differentiation, increased colony forming potential and changes in expression that recapitulate aging and leukemia signatures. Thus, age-associated epigenetic reprogramming may form a predisposing condition for the development of age-related AML. Overall design: CRISPR-Cas9 mediated knockout of KLF6 was performed in human peripheral blood CD34+ cells (n=4 replicates). RNA-seq was utilized to determine the effect of KLF6 knockout compared to a non-targeting control control.
Aging Human Hematopoietic Stem Cells Manifest Profound Epigenetic Reprogramming of Enhancers That May Predispose to Leukemia.
Sex, Age, Specimen part, Treatment, Subject
View SamplesTo improve our understanding of the relationships between methylation and expression we profiled mRNA expression and single-base resolution methylation levels for two breast cancer cell lines, MCF7 and T47D. Expression was profiled using RNA-seq. Methylation was assayed using Methyl-MAPS, which uses methylation-sensitive and -dependent restriction enzyme digests followed by high-throughput sequencing to identify methylation levels at individual CpGs (Edwards et al. 2010, Genome Research). Overall design: RNA-Seq was used to generate mRNA expression profiles of MCF7 and T47D cells under standard growth conditions.
Epigenetic activation of the prostaglandin receptor EP4 promotes resistance to endocrine therapy for breast cancer.
Specimen part, Cell line, Subject
View SamplesApproximately 75% of breast cancers express estrogen receptor a (ERa) and depend on estrogen signals for continued growth. Aromatase inhibitors (AIs) prevent estrogen production and inhibit estrogen receptor signaling, resulting in decreased cancer recurrence and mortality. Advanced tumors treated with AIs almost always develop resistance to these drugs via the up-regulation of alternative growth signals. The mechanisms that drive this resistance - especially epigenetic events that alter gene expression - are however not well understood. Here we performed a genome-wide DNA methylation and expression analysis of cell line models to find epigenetically regulated genes involved in acquired aromatase inhibitor resistance. We discovered that prostaglandin E2 receptor 4 (PTGER4) is up-regulated after demethylation and promotes phosphorylation and activation of ERa. Knockdown and inhibitor studies demonstrate that PTGER4 promotes AI resistance via ligand independent activation of the ERa-cofactor CARM1. We believe that we have discovered a novel epigenetic mechanism for altering cell signaling and acquiring endocrine therapy resistance. Our findings indicate that PTGER4 is a potential drug target in AI resistant cancers. Additionally, the epigenetic component of PTGER4 regulation suggests that further study of PTGER4 may yield valuable insights into how DNA methylation-targeted diagnoses and/or treatments can improve AI resistant breast cancer treatment. Overall design: RNA-Seq was used to generate mRNA expression profiles of MCF7-LTED (long-term estrogen deprived) cells grown in charcoal stripped serum. Two replicates were performed.
Epigenetic activation of the prostaglandin receptor EP4 promotes resistance to endocrine therapy for breast cancer.
No sample metadata fields
View SamplesThis SuperSeries is composed of the SubSeries listed below.
Toxicogenomics of iron oxide nanoparticles in the nematode C. elegans.
Specimen part
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