Extracts from the rhizome of Cimicifuga racemosa (black cohosh) are increasingly popular as herbal alternative to hormone replacement therapy (HRT) for the alleviation of postmenopausal disorders. However, the molecular mode of action and the active principles are presently not clear. Previously published data have been largely contradictory. We, therefore, investigated the effects of a lipophilic Cimicifuga rhizome extract on the ER+ breast cancer MCF-7 cells at transcriptional level in comparision to 17beta-estradiol and the ER antagonist tamoxifen. With the extract 431 genes were regulated more than 1.5 fold. The overall expression pattern differed from those of 17-estradiol or the estrogen receptor antagonist tamoxifen. We observed an enrichment of genes in an anti-proliferative and apoptosis-sensitizing manner, together with an increase of mRNAs coding for gene products involved in several stress response pathways. Regulated genes of these functional groups were highly overrepresented among all regulated genes. Various transcripts coding for oxidoreductases were induced, as for example the cytochrome P450 family members 1A1 and 1B1. In addition, some transcripts associated with antitumor but also tumor-promoting activity were regulated.
Gene expression profiling reveals effects of Cimicifuga racemosa (L.) NUTT. (black cohosh) on the estrogen receptor positive human breast cancer cell line MCF-7.
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View SamplesForced expression of activated beta-catenin in mouse dermal fibroblasts is sufficient to cause spontaneous, progressive skin fibrosis in vivo. We generated triple-transgenic HoxB6CreERT/+; R26-YFP/+; Catnb?ex3/+ "activated beta-catenin" mice and double-transgenic HoxB6CreERT/+; R26-YFP/+ littermate control mice. We induced Cre activity (resulting in expression of activated beta-catenin in triple-transgenic mutant fetuses) by administering tamoxifen to the pregnant dam at embryonic day 16.5. The activated beta-catenin mice developed fibrotic skin, characterized by elevated collagen deposition and increased fibroblast proliferation. We performed RNA-sequencing to profile gene expression in the dermis of control and activated beta-catenin mutant mice with established skin fibrosis at 3 weeks of age. Overall design: Gene expression profiles were determined by paired-end sequencing (Illumina HiSeq 2500) of total RNA from the dermis of 3 activated beta-catenin and 3 littermate control mice at 3 weeks of age.
Sustained β-catenin activity in dermal fibroblasts promotes fibrosis by up-regulating expression of extracellular matrix protein-coding genes.
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View SamplesBackground: In malaria, parasites of the genus Plasmodium elicit robust host expansion of macrophages and monocytes, but the underlying mechanisms remain unclear. In a microarray analysis of pooled, activated CD4+ T cells from mice infected with P. chabaudi, we detected inducible expression of Csf1, which promotes macrophage proliferation. To better characterize Csf1-producing T cells, single-cell RNA-Seq was performed. Results: Robust Csf1 expression was detected in a subset of sampled CD4+ T cells (n = 14/35), whereas the remainder of cells had no detectable Csf1. Further, we identified ~ 400 genes that were differentially expressed between Csf1+ and Csf1- T cells. Conclusions: This work defines the transcriptional landscape of a subset of activated CD4+ T cells that produce the cytokine Csf1. These cells are expected to be important in infections with intracellular pathogens such as Plasmodium. Overall design: Antigen-experienced (CD11a+ CD49d+) CD4+ T cells were isolated by double-sorting from the blood of C57BL/6 adult female mice 6 days post-infection with Plasmodium chabaudi. Single cells were isolated and processed for RNA sequencing using a Fluidigm C1 integrated fluidic circuit chip. 35 biological replicates were analyzed.
Macrophage Colony Stimulating Factor Derived from CD4+ T Cells Contributes to Control of a Blood-Borne Infection.
Sex, Specimen part, Subject, Time
View SamplesRegulatory factors controlling stem cell identity and self-renewal are often active in aggressive cancers and are thought to promote their growth and progression. TCF3 (also known as TCF7L1) is a member of the TCF/LEF transcription factor family that is central in regulating epidermal and embryonic stem (ES) cell identity. We found that TCF3 is highly expressed in poorly differentiated human breast cancers, preferentially of the basal-like subtype. This suggested that TCF3 is involved in the regulation of breast cancer cell differentiation state and tumorigenicity. Silencing of TCF3 dramatically decreased the ability of breast cancer cells to initiate tumor formation, and led to decreased tumor growth rates. In culture, TCF3 promotes the sphere formation capacity of breast cancer cells and their self-renewal. We found that in contrast to ES cells, where it represses Wnt-pathway target genes, TCF3 promotes the expression of a subset of Wnt-responsive genes in breast cancer cells, while repressing another distinct target subset. In the normal mouse mammary gland Tcf3 is highly expressed in terminal end buds, structures that lead duct development. Primary mammary cells are dependent on Tcf3 for mammosphere formation, and its overexpression in the developing gland disrupts ductal growth. Our results identify TCF3 as a central regulator of tumor growth and initiation, and a novel link between stem cells and cancer.
Control of breast cancer growth and initiation by the stem cell-associated transcription factor TCF3.
Cell line, Treatment
View SamplesProducts derived from roots of Leuzea carthamoides DC. (maral root) are being promoted as anti-aging and adaptogenic. The phytoecdysteroids are considered as active principles with numerous beneficial effects, but little is known about the pharmacological properties of Leuzea extracts. We, therefore, investigated the effects of a lipophilic Leuzea root extract on ER+ breast cancer MCF-7 cells at transcriptional level in comparison to 17beta-estradiol and the ER antagonist tamoxifen. With the extract 241 genes were regulated more than 1.5 fold. We observed gene regulation in an anti-proliferative and pro-apoptotic manner.
Effects of Leuzea carthamoides on human breast adenocarcinoma MCF-7 cells determined by gene expression profiling and functional assays.
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View SamplesTherapies targeting the androgen receptor are critical for treatment of hormone refractory prostate cancer. We have previously demonstrated that Ebp1, a protein isolated by its ability to bind ErbB3, is a downstream effector of heregulin activated pathways and an AR corepressor. As Ebp1 is decreased in preclinical models of hormone refractory prostate cancer, we studied the ability of Ebp1 to mitigate the hormone refractory phenotype. As we previously found that Ebp1 affected the expression of some androgen receptor target genes, we sought to determine a full spectrum of genes changed using an unbiased appraoch by microarry analysis.
EBP1, an ErbB3-binding protein, is decreased in prostate cancer and implicated in hormone resistance.
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View SamplesBoth spotted long oligonucleotide arrays (GPL1384) and Affymetrix GeneChip arrays (GPL96) were used to analyze gene expression in six human head and neck squamous cell carinoma samples versus control samples or lymph node metastases of the same patients. Hybridizations of HG-U133A GeneChip arrays were performed using standard Affymetrix protocols and equipment. Before hybridization on DKFZ Operon 27k long oligonucleotide arrays, 2 g RNA were amplified by one round of linear isothermal RNA amplification, followed by Cy-dUTP incorporation using Klenow fragment. Hybridizations were performed for 16 h at 42 C in a GeneTAC Hybridization Station (Genomic Solutions) using UltraHyb hybridization buffer (Ambion). Hybridized microarrays were scanned at 5 m resolution on a GenePix 4000B microarray scanner (Axon Instruments). Raw signal intensities from both platforms were normalized applying variance stabilization (W. Huber et al., Bioinformatics 18 Suppl 1, 2002). Expression ratios were compared for those genes represented in both array platforms.
Patient-based cross-platform comparison of oligonucleotide microarray expression profiles.
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View SamplesRenal cell carcinoma (RCC) exhibits some unusual features and genes commonly mutated in cancer are rarely mutated in clear-cell RCC (ccRCC), the most common type. The most prevalent genetic alteration in ccRCC is the inactivation of the tumor suppressor gene VHL. Using whole-genome and exome sequencing we discovered BAP1 as a novel tumor suppressor in ccRCC that shows little overlap with mutations in PBRM1, another recent tumor suppressor. Whereas VHL was mutated in 81% of the patients (142/176), PBRM1 was lost in 58% and BAP1 in 15% of the patients analyzed. All these tumor suppressor genes are located in chromosome 3p, which is partially or completely lost in most ccRCC patients. However, BAP1 but not PBRM1 loss was associated with higher Fuhrman grade and, therefore, poorer outcome. Xenograft tumors (tumorgrafts) implanted orthotopically in mice exhibited similar gene expression profiling to corresponding primary tumors. Gene expression profiling of tumors and tumorgrafts displayed different signatures for BAP1- and PBRM1-deficient samples. Thus, after inactivation of VHL, the acquisition of a mutation in BAP1 or PBRM1 defines a different program that might alter the fate of the patient. Our results establish the foundation for an integrated pathological and molecular genetic classification of about 70% of ccRCC patients, paving the way for subtype-specific treatments exploiting genetic vulnerabilities.
BAP1 loss defines a new class of renal cell carcinoma.
Sex, Age, Specimen part, Disease, Disease stage, Subject
View SamplesThis SuperSeries is composed of the SubSeries listed below.
Immunopathology of childhood celiac disease-Key role of intestinal epithelial cells.
Specimen part, Cell line, Treatment
View SamplesComparison of laminin binding and laminin non-binding germ cells
Defining the spermatogonial stem cell.
No sample metadata fields
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