Project description:Mapping deletions of Chr7 in human iPSC and ESCs derived from patients cells through reprogramming or chromosome engineering Two-condition experiment, normal diploid hPSCs vs del7q-hPSCs

Project description:Mapping deletions of Chr7 in human iPSC derived from patients cells through reprogramming Two-condition experiment, normal diploid iPSCs vs del7q-iPSCs

Project description:Gene expression analysis, a) comparing isogenic karyotypically normal iPSCs to del7q-iPSCs, b) comparing del7q-iPSCs to spontaneously corrected iPSCs. The chr7q deletion results in reduced expression levels of a large number of genes in the chr7q deleted region Two-condition experiment, del7q-iPSCs vs. isogenic normal iPSCs and del7q-iPSCs vs spontaneously corrected-iPSCs. Biological replicates: 3 control replicates, 3 del7q-iPSC replicates and 3 spontaneously corrected-iPSC replicates

Project description:Expression data from undifferentiated human induced pluripotent stem cells total RNA was isolated from undifferentiated induced pluripotent stem cells grown in standard HESC growth conditions on mouse embryonic fibroblast feeder layer.

Project description:This SuperSeries is composed of the following subset Series: GSE21243: Expression data from undifferentiated human induced pluripotent stem cells GSE21244: Expression data from undifferentiated human pluripotent stem cells Refer to individual Series

Project description:Three parthenogenetic induced pluripotent stem cell (PgHiPSCs) lines were generated from each of the ovarian teratoma cell lines (two distinct individuals). Two normal iPS cell lines were generated from normal fibroblasts. Three biological replicates of normal embryonic stem cells (H9, HESCs) were perfomed. We used microarrays to study the gene expression profiles of the PgHiPSCs, and compared the expression of genes to both embryonic and induced pluripotent stem cell, to identify paternally expressed genes that are down-regulated in the PgHiPSC lines. All parthenogenetic and normal iPS cell lines, were tested for pluripotency assays (inclusing, morphology, immuno stanings and qRT-PCR for known pluripotency markers, differentiation capacity in vivo and in vitro)

Project description:Human pluripotent stem cells (hPSCs) tend to acquire chromosomal aberrations in culture, which may increase their tumorigenicity. However, the cellular mechanism(s) underlying these aberrations are largely unknown. Here we show that the DNA replication in aneuploid hPSCs is perturbed, resulting in high prevalence of defects in chromosome condensation and segregation. Global gene expression analyses in aneuploid hPSCs revealed decreased levels of actin cytoskeleton genes and their common transcription factor SRF. Down-regulation of SRF or chemical perturbation of actin cytoskeleton organization in diploid hPSCs resulted in increased replication stress and perturbation of chromosome condensation, recapitulating the findings in aneuploid hPSCs. Altogether, our results revealed that in hPSCs DNA replication stress results in a distinctive defect in chromosome condensation, underlying their ongoing chromosomal instability. Our results shed a new light on the mechanisms leading to ongoing chromosomal instability in hPSCs, and may be relevant to tumor development as well. Expression data from diploid human pluripotent stem cells Total RNA was isolated from undifferentiated human pluripotent stem cells grown under standard human ES conditions or under condition media

Project description:In chimera assays, murine naïve embryonic stem (ES) cells usually produce better chimeras than the more primed epiblast-derived stem (EpiS) cells. Overexpression of the cytoskeleton-associated protein LIMA1/EPLIN in EpiS cells improves the rate of successful chimeras, while the knockout of LIMA1 in ES cells results in a metabolic state reminiscent of EpiS cells. To investigate the effects of LIMA1 we performed RNA-seq in Lima1 loss-of-function murine ES cells and in Lima1 gain-of-function murine EpiS cells and human induced pluripotent stem cells.

Project description:Human pluripotent stem cells (hPSCs) tend to acquire genomic aberrations in culture, the most common of which is the trisomy of chromosome 12. Interestingly, trisomy 12 is also prevalent in germ cell tumors (GCTs). Here, we aimed to dissect the cellular and molecular implications of trisomy 12 in hPSCs. A genome-wide gene expression analysis revealed that trisomy 12 profoundly affects the global gene expression profile of hPSCs, inducing a transcriptional program very similar to that of CGTs. Direct comparison of the proliferation, replication, differentiation and apoptosis between diploid and aneuploid hPSCs revealed that trisomy 12 significantly increases the proliferation rate of hPSCs. Increased replication largely accounts for the increased proliferation observed, and may explain the selection advantage that trisomy 12 confers to hPSCs. A comparison of the tumors induced by diploid and aneuploid hPSCs further demonstrated that trisomy 12 increases the tumorigenicity of hPSCs, inducing transcriptionally-distinct teratomas, from which pluripotent cells can be recovered. Lastly, a chemical screen of 89 anticancer drugs against diploid and aneuploid hPSCs discovered that trisomy 12 raises the sensitivity of hPSCs to several replication inhibitors, suggesting that the increased proliferation and tumorigenicity of these aberrant cells also makes them more vulnerable, and might potentially be used for their selective elimination from culture. Together, our findings demonstrate the extensive effect of trisomy 12 on the gene expression signature and on the cellular behavior of hPSCs, and highlight the danger posed by this trisomy for the successful use of hPSCs in basic research and in regenerative medicine. Expression data from diploid and aneuoploid human pluripotent stem cells, teratomas derived from them, and pluripotent-like cells recovered from these teratomas total RNA was isolated from undifferentiated human pluripotent stem cells grown under standard human ES conditions, or from teratomas derived from them, or from ES-like cells recovered from these teratomas.

Project description:Two ELK-1 overexpressing cells were generated from CSES7 cell line and compared to WT CSES7. We used microarrays to study the gene expression profiles of the ELK-1 overexpressing cells in order to identify ELK-1 target genes that might be involve in the processes of apoptosis and differentiation CSES7 cells were transfected with the ELK-1 vector.