Project description:MEFs can be reprograming to ES by defined reprogramming factors, the derived ES-like cells were termed iPSc. Completely reprogrammed iPSc have identifed gene expression profle with ES. Culture condition may influent the pluripotency of iPSCs.iPS/ES cultured in differient ES medium may have different gene expression profile. We preform an experiment to analyze the gene expression difference among MEFs cultured in FBS and iCD1,iPSc cultured in KSR medium and N2B27 supplementary with 2i medium , and ES cultured in N2B27 supplementary with 2i medium.

Project description:Spontaneous canine head and neck squamous cell carcinoma (HNSCC) represents an excellent model of human HNSCC but is greatly understudied. To better understand and utilize this valuable resource, we performed a pilot study that represents its first genome-wide characterization by investigating 12 canine HNSCC cases, of which 9 are oral, via high density array comparative genomic hybridization and RNA-seq. The analyses reveal that these canine cancers recapitulate many molecular features of human HNSCC. These include analogous genomic copy number abnormality landscapes and sequence mutation patterns, recurrent alteration of known HNSCC genes and pathways (e.g., cell cycle, PI3K/AKT signaling), and comparably extensive heterogeneity. Amplification or overexpression of protein kinase genes, matrix metalloproteinase genes, and epithelial–mesenchymal transition genes TWIST1 and SNAI1 are also prominent in these canine tumors. This pilot study, along with a rapidly growing body of literature on canine cancer, reemphasizes the potential value of spontaneous canine cancers in HNSCC basic and translational research.

Project description:RNA seq of iPSC-derived cardiomyocytes cultured in lipid-enriched maturation medium (MM), in MM on nanopattern-surfaces (NP) and under the influence of MM, NP and electrical Stimulation (ES, 2Hz, 14 days). 9 Samples from 3 Independent batches/differentiations of cardiomyocytes from 2 different iPSC-lines (iWTD2.1 and isWT7.22).

Project description:Spontaneously occurring canine mammary cancer represents an excellent model of human breast cancer, but is greatly understudied. To better use this valuable resource, we performed whole-genome sequencing, whole-exome sequencing, RNA-seq, and/or high-density arrays on twelve canine mammary cancer cases, including seven simple carcinomas and four complex carcinomas. Canine simple carcinomas, which histologically match human breast carcinomas, harbor extensive genomic aberrations, many of which faithfully recapitulate key features of human breast cancer. Canine complex carcinomas, which are characterized by proliferation of both luminal and myoepithelial cells and are rare in human breast cancer, seem to lack genomic abnormalities. Instead, these tumors have about 35 chromatin-modification genes downregulated and are abnormally enriched with active histone modification H4-acetylation, whereas aberrantly depleted with repressive histone modification H3K9me3. Our findings indicate the likelihood that canine simple carcinomas arise from genomic aberrations, whereas complex carcinomas originate from epigenomic alterations, reinforcing their unique value. Canine complex carcinomas offer an ideal system to study myoepithelial cells, the second major cell lineage of the mammary gland. Canine simple carcinomas, which faithfully represent human breast carcinomas at the molecular level, provide indispensable models for basic and translational breast cancer research.

Project description:Currently, cardiomyocytes differentiated from human induced pluripotent stem cells (iPSCs) are routinely generated for disease research and drug development as an alternative to animal models. Although iPSC-derived cardiomyocytes (iPSC-CMs) are generally assumed to resemble myocytes in the fetal heart, a systematic global comparison is still lacking. We established a robust differentiation protocol to generate mature cardiomyocytes from male and female iPSC lines, and investigated their gene expression and splicing profiles, compared to that of human hearts at different stages of development.

Project description:MEFs can be reprograming to ES by defined reprogramming factors, the derived ES-like cells were termed iPSc. Completely reprogrammed iPSc have identifed gene expression profle with ES. Culture condition may influent the pluripotency of iPSCs.iPS/ES cultured in differient ES medium may have different gene expression profile.

Project description:The goal of this experiment was to compare the transcriptome of human iPSC-derived thyroid follicular cell progenitors cultured in the presence or absence of Retinoic Acid in culture medium.

Project description:iPSCs were maintained on Geltrex coated flat culture dish in E8 media according to manufacturer’s guidelines. Colonies were manually harvested at 60-80% confluence. Cells were then collected and dissociated into single cells using EDTA. Cells were put on to ultra low attachment 24 well or 96 well plate to allow them to form aggregated in suspension with ROCK inhibitor. Cell aggregates 191were cultured in E8 medium with daily medium change for 6-7 days. Control iPSC-A (iPSC-aggregates) were plated on a Geltrex in 96 well plate or 8 well culture chamber. And then aggregates were treated E8 medium with daily medium change for 12-14 days.

Project description:CRISPR-edited human induced pluripotent stem cell (iPSC)-derived glioma models provide a robust platform to investigate the biology of these aggressive tumors in an isogenic background or to test possible treatments in preclinical settings. We created iPSC12 lines that carry different combinations of glioma driver mutations using CRISPR/Cas9 genome editing technology, including TP53-/-, ATRX-/-, IDH1-R132H/WT, PTEN-/-, CDKN2A/B-/-, TERT promoter(TERTp) C228T/WT, MTAP-/-, and overexpression (OE) of EGFRvIII oncogenic isoform. Edited iPSCs were then differentiated into neural progenitor cells (NPC) using a small molecule protocol. We cultured the edited NPCs in 3D organoid with an FBS-containing differentiation medium. After 14 days, different genotypes of NPCs formed organoids were harvest and RNAs were isolated and subjected to RNA-seq analysis. To create an in vivo model system, NPCs with different genotypes were intracranially transplanted into athymic mice. Mice were sacrificed when pathologic symptoms developed resulting from tumor burden or 120 days post brain transplantation. RNAs were extracted from the tumor region of brain tissue sections and subjected to RNA-seq analysis. Our study showed that the iPSC-based model of gliomas displayed distinct mutation-dependent variation in transcriptome, which recapitulated the gene expression signatures of human gliomas.

Project description:We have identified mRNAs whose abundance or translational efficiency is regulated in nutrient-rich medium by the Scd6 or Dhh1 protein in either wild-type cells or dcp2∆ cells lacking the decapping enzyme