Project description:RNA sequencing was performed on biological triplicates of p53 null T-ALL cells with ZEB2 overexpression (P53/R26-Zeb2tg/tg) versus p53 null T-ALL cells without Zeb2 overexpression (P53/R26+/+) treated with 100nM GSK2879552 for 24h versus their corresponding DMSO treatment controls. P53/R26+/+ and P53/R26-Zeb2tg/tg tumor lines displayed a very distinct gene expression signature under baseline (DMSO) conditions in line with our previous observations that Zeb2 driven thymomas reflect a more immature T-ALL subtype. GSK2879552 is a potent, selective and orally bioavailable inhibitor of the lysine-specific histone demethylase 1 (LSD1). LSD1i treatment in control P53/R26+/+ cell lines only caused limited effects on overall transcription. In contrast, gene transcription was more severely affected by LSD1 perturbations in the P53/R26-Zeb2tg/tg lines with significant changes in the expression transcripts enriched for signalling pathways essential for embryonic development (like TGFbeta and Wnt signalling), genes involved in transcriptional repression/regulation, apoptosis and DNA replication/repair. All together, these results demonstrate that Zeb2 overexpression modulates murine T-ALL responsiveness to LSD1 inhibitors.

Project description:Although increasing studies have proved cell competition widely involved in the growth and homeostasis of multicellular organisms is closely linked to tumorigenesis and development, the mechanistic contributions between drug resistance and tumor cell competition remain ill-defined. In this paper, we applied MS of cell competition group to determine the dominant characteristics of lenvatinib resistance and its metabolic differences in cell competition. Our results showed a vital role of HSP90-IDH1 mediated lipid accumulation in maintaining the competitive outcome of HCC drug-resistant cells via regulating lipid metabolism. HSP90-IDH1 axis could be a promising target to overcome HCC drug resistance.

Project description:p53-mediated hematopoietic stem and progenitor cell competition

Project description:Recently, it was described that mammalian cells are able to eliminate those with relative lower Myc levels in the epiblast through cell competition. We have described that cardiomyocytes during heart development are also able to complete eliminating cells with lower Myc levels. We have also shown that adult cardiomyocytes respond in the same way over long periods of time when cell competition is induced by overexpressing Myc in a mosaic fashion. We therefore have developed an RNASeq assay to further understand the mechanism of elimination of WT cells and the effect of mild Myc overexpression in cardiomyocytes. Myc overexpression in a mosaic fashion in adult cardiomyocytes, 2 hearts were analyzed and two wild type littermates were used as controls

Project description:Gene expression profiling of P53/R26 +/+ (n=2) versus P53/R26-Zeb2tg/tg (n=3) thymic tumors

Project description:In Drosophila, homozygosity for tumor suppressors, like lethal giant larvae, lgl, results in neoplastic transformation of imaginal disc epithelium - characterized by loss of their apico-basal polarity, unrestricted growth and invasion into neighboring tissues/organs. In genetic mosaics, however, lgl mutant clones are eliminated shortly after their initiation by cell competition. On the other hand, lgl mutant clones generated in Minute (M) genetic background, which compromises cell competition from the neighboring wild type cells, display clonal progression and tissue invasion. To gain insight into the molecular players of fly tumorigensis we undertook genome-wide transcriptional profiling of neoplastically transformed mosaic wing imaginal discs where lgl- clones were induced in M genetic background. Mosaic wing imaginal discs carrying wild type (lgl+) clones, also generated in M genetic background, served as controls. Transcriptional profile revealed up-regulation of a number of signaling pathways, such as Hippo, Wnt, TGF-beta or EGFR. Transcriptional profile of lgl- mosaic imaginal discs therefore provides a useful resource for identification of genes/pathways that are functionally relevant for carcinogenesis

Project description:Wild type thymi were transplanted into a competitive (wild type hosts), or non-competitive (Rag2-/-γc-/-KitW/Wv hosts) environment. Triple negative 2 and 3 (TN2/3) stages were sorted 14 days afetr transplantation and separated for cells of host or donor origin. Global gene expression data for TN2/3 cells, that were young, old with, and old without competition were compared.

Project description:Healthy skin is a tapestry of wild-type and mutant clones. Although injury can cooperate with Ras mutations to promote tumorigenesis, the consequences in genetically mosaic skin are unknown. Here, we show that wild-type cells suppress oncogenic Ras-induced aberrant growth after injury. While HrasG12V/+ and KrasG12D/+ cells outcompete wild-type cells in uninjured, mosaic tissue, their expansion is prevented after injury due to an increase in the fraction of proliferating wild-type cells. Mechanistically, we show that, unlike HrasG12V/+ cells, wild-type cells respond to autocrine and paracrine secretion of EGFR ligands, and this differential activation of the EGFR pathway explains the competitive switch during injury-repair. Inhibition of EGFR by both drug and genetic approaches diminished the proportion of dividing wild-type cells after injury, leading to the expansion of HrasG12V/+ cells. Increased wild-type cell proliferation through a global loss of the cell cycle inhibitor p21 counteracted the expansion of HrasG12V/+ cells even without injury. Thus, injury plays an unanticipated role in switching the competitive balance between oncogenic and wild-type cells in genetically mosaic skin.

Project description:Competition is a major determinant of plant community structure consisting of both species-specific and general interactions, either of which may influence competitive competency and plant abundance and size. In certain cases, competitive competency could arise from altered gene expression and plant function when an individual is confronted with new competitors. We explored competition at the molecular level by hybridizing transcripts from Centaurea maculosa (spotted knapweed), one of North America's most invasive exotic plant species, to an Arabidopsis microarray chip. Centaurea was grown in competition with Festuca idahoensis (Idaho fescue), a native grass species that generally has weak competitive effects against Centaurea; Gaillardia aristata (Indian blanketflower), a native herbaceous species that tends to be a much stronger competitor against Centaurea; or alone (control). The expression of some genes was found to be relatively uninfluenced by the type of plant neighbor, whereas other patterns of gene expression appeared to be more neighbor specific. To our knowledge, these results are the first to identify genes in an invasive plant that are induced or repressed by plant neighbors and provide a new avenue of insight into the molecular aspects of plant competitive ability. Keywords: treated vs.untreated

Project description:Competition is a major determinant of plant community structure consisting of both species-specific and general interactions, either of which may influence competitive competency and plant abundance and size. In certain cases, competitive competency could arise from altered gene expression and plant function when an individual is confronted with new competitors. We explored competition at the molecular level by hybridizing transcripts from Centaurea maculosa (spotted knapweed), one of North America's most invasive exotic plant species, to an Arabidopsis microarray chip. Centaurea was grown in competition with Festuca idahoensis (Idaho fescue), a native grass species that generally has weak competitive effects against Centaurea; Gaillardia aristata (Indian blanketflower), a native herbaceous species that tends to be a much stronger competitor against Centaurea; or alone (control). The expression of some genes was found to be relatively uninfluenced by the type of plant neighbor, whereas other patterns of gene expression appeared to be more neighbor specific. To our knowledge, these results are the first to identify genes in an invasive plant that are induced or repressed by plant neighbors and provide a new avenue of insight into the molecular aspects of plant competitive ability. Keywords: treated vs.untreated