Project description:Development of the soil amoeba Dictyostelium discoideum is triggered by starvation. When placed on a solid substrate, the starving solitary amoebae cease growth, communicate via extracellular cAMP, aggregate by tens of thousands and develop into fully integrated multicellular organisms. Early phases of the developmental program are often studied in cells starved in suspension while cAMP is provided exogenously. Previous studies revealed massive shifts in the transcriptome under these developmental conditions and a close relationship between gene expression and morphogenesis, but were limited by the sampling frequency and the resolution of the methods. Here, we combine the superior depth and specificity of RNA-seq with high frequency sampling during filter development and cAMP pulsing in suspension. We found that the developmental transcriptome exhibits mostly gradual changes interspersed by a few instances of large changes. Considering the whole transcriptome as a single phenotype, we treated each time point as an independent entity and were able to characterize development as groups of similar time points separated by gaps. The grouped time points represent gradual changes in mRNA abundance and the gaps represent times during which many genes are differentially expressed rapidly. Comparing development on solid substrate to development in suspension revealed that gene expression in filter developed cells lagged behind cells treated with exogenous cAMP in suspension. The high sampling frequency revealed many genes whose regulation is reproducibly more complex than indicated by previous studies. Gene Ontology enrichment analysis showed that the transition to multicellularity at the mound stage coincided with rapid accumulation of transcripts associated with mitosis and DNA replicative processes. Later development included the up-regulation of organic signaling molecules and co-factor biosynthesis. We observed multiple instances of enrichment of oxidation-reduction and reactive oxygen related terms. Our analysis also demonstrated a high level of synchrony between the developing structures throughout development. Our data describe D. discoideum development as a series of coordinated cellular and multicellular activities. Coordination occurred within fields of aggregating cells and between multicellular bodies, such as mounds or migratory slugs that experience both cell-cell contact and various soluble signaling regimes. These time courses, sampled at the highest temporal resolution to date in this system, provide a comprehensive resource for future studies of developmental gene expression. Dictyosteloium discoideum gene expression (mRNA) profiles from two experimental time courses: development on filters and cAMP signaling in suspension. Filter development consists of 2 replicates of 19 time point samples, while cAMP in suspension contains 3 replicates of 10, 10 and 9 samples each.

Project description:Biological oscillations are observed at many levels of cellular organization. In the social amoebae Dictyostelium discoideum, starvation-triggered multicellular development is organized by periodic cAMP waves, which provide both chemoattractant gradients and developmental signals. We report that GtaC, a GATA transcription factor, exhibits rapid nucleocytoplasmic shuttling in response to cAMP waves. This behavior requires coordinated action of a nuclear localization signal and reversible G protein-coupled receptor (GPCR)-mediated phosphorylation. While both are required for developmental gene expression, receptor occupancy promotes nuclear exit of GtaC, which leads to a transient burst of transcription at each cAMP cycle. We demonstrate that this biological circuit, like an “edge trigger”, filters out high frequency signals and counts those admitted, thereby enabling cells to modulate gene expression according to the dynamic pattern of the external stimuli.

Project description:In this study, we identified several recurrent activating HER2 somatic mutations in transmembrane and juxtamembrane domain in multiple cancers and demonstrate that patients carryingthese mutations are candidates for anti-HER2 therapy. We have also identified a germline mutation in HER2 transmembrane domain.

Project description:Biological oscillations are observed at many levels of cellular organization. In the social amoebae Dictyostelium discoideum, starvation-triggered multicellular development is organized by periodic cAMP waves, which provide both chemoattractant gradients and developmental signals. We report that GtaC, a GATA transcription factor, exhibits rapid nucleocytoplasmic shuttling in response to cAMP waves. This behavior requires coordinated action of a nuclear localization signal and reversible G protein-coupled receptor (GPCR)-mediated phosphorylation. While both are required for developmental gene expression, receptor occupancy promotes nuclear exit of GtaC, which leads to a transient burst of transcription at each cAMP cycle. We demonstrate that this biological circuit, like an M-bM-^@M-^\edge triggerM-bM-^@M-^], filters out high frequency signals and counts those admitted, thereby enabling cells to modulate gene expression according to the dynamic pattern of the external stimuli. Transcriptional profiling during early development of wild-type, gtaC, GFP-GtaC/gtaC, and NLSex-GFP-GtaC/gtaC strains

Project description:Recognition of microbial patterns by host pattern recognition receptors is a key step in immune activation in multicellular eukaryotes. Peptidoglycans (PGN) are major components of bacterial cell walls and possess immunity-stimulating activities in metazoans and plants. Here, we show that PGN sensing in Arabidopsis thaliana requires three LysM domain proteins, LYM1, LYM3 and CERK1.

Project description:Recognition of microbial patterns by host pattern recognition receptors is a key step in immune activation in multicellular eukaryotes. Peptidoglycans (PGN) are major components of bacterial cell walls and possess immunity-stimulating activities in metazoans and plants. Here, we show that PGN sensing in Arabidopsis thaliana requires three LysM domain proteins, LYM1, LYM3 and CERK1. A 24 DNA microarray study using toral RNA from three Arabidopsis mutants (lym1-1, lym3-1, cerk1-2) as well as wild type treated with water or peptidoglycan.

Project description:TC-510 is a novel cell therapy that consists of autologous genetically engineered T cells expressing two synthetic constructs: first, a single-domain antibody that recognizes human Mesothelin, fused to the CD3-epsilon subunit which, upon expression, is incorporated into the endogenous T cell receptor (TCR) complex and second, a PD-1:CD28 switch receptor, which is expressed on the surface of the T cell, independently from the TCR. The PD-1:CD28 switch receptor comprises the PD-1 extracellular domain fused to the CD28 intracellular domain via a transmembrane domain. Thus, the switch is designed to produce a costimulatory signal upon engagement with PD-L1 on cancer cells.

Project description:The transcription factor Bcl6 orchestrates the germinal center reaction through its actions in B and T cells, and regulates inflammatory signaling in macrophages. We report that genetic replacement by mutant Bcl6, which cannot bind corepressors to its BTB domain, disrupted  germinal center formation and immunoglobulin affinity maturation, due to a defect in B cell  proliferation and survival. In contrast, BTB loss of function had no effect on T follicular helper cell differentiation and function, nor other T helper subsets. Bcl6 null mice displayed a lethal inflammatory phenotype, whereas BTB mutant mice experienced normal healthy lives with no inflammation. Bcl6 repression of inflammatory responses in macrophages was accordingly independent of the BTB domain repressor function. Bcl6 thus mediates its actions through lineage-specific biochemical functions. ChIP-seq for Bcl6, SMRT and BCOR in germinal center B cells

Project description:Development of the soil amoeba Dictyostelium discoideum is triggered by starvation. When placed on a solid substrate, the starving solitary amoebae cease growth, communicate via extracellular cAMP, aggregate by tens of thousands and develop into fully integrated multicellular organisms. Early phases of the developmental program are often studied in cells starved in suspension while cAMP is provided exogenously. Previous studies revealed massive shifts in the transcriptome under these developmental conditions and a close relationship between gene expression and morphogenesis, but were limited by the sampling frequency and the resolution of the methods. Here, we combine the superior depth and specificity of RNA-seq with high frequency sampling during filter development and cAMP pulsing in suspension. We found that the developmental transcriptome exhibits mostly gradual changes interspersed by a few instances of large changes. Considering the whole transcriptome as a single phenotype, we treated each time point as an independent entity and were able to characterize development as groups of similar time points separated by gaps. The grouped time points represent gradual changes in mRNA abundance and the gaps represent times during which many genes are differentially expressed rapidly. Comparing development on solid substrate to development in suspension revealed that gene expression in filter developed cells lagged behind cells treated with exogenous cAMP in suspension. The high sampling frequency revealed many genes whose regulation is reproducibly more complex than indicated by previous studies. Gene Ontology enrichment analysis showed that the transition to multicellularity at the mound stage coincided with rapid accumulation of transcripts associated with mitosis and DNA replicative processes. Later development included the up-regulation of organic signaling molecules and co-factor biosynthesis. We observed multiple instances of enrichment of oxidation-reduction and reactive oxygen related terms. Our analysis also demonstrated a high level of synchrony between the developing structures throughout development. Our data describe D. discoideum development as a series of coordinated cellular and multicellular activities. Coordination occurred within fields of aggregating cells and between multicellular bodies, such as mounds or migratory slugs that experience both cell-cell contact and various soluble signaling regimes. These time courses, sampled at the highest temporal resolution to date in this system, provide a comprehensive resource for future studies of developmental gene expression.

Project description:The transcription factor Bcl6 orchestrates the germinal center reaction through its actions in B and T cells, and regulates inflammatory signaling in macrophages. We report that genetic replacement by mutant Bcl6, which cannot bind corepressors to its BTB domain, disrupted  germinal center formation and immunoglobulin affinity maturation, due to a defect in B cell  proliferation and survival. In contrast, BTB loss of function had no effect on T follicular helper cell differentiation and function, nor other T helper subsets. Bcl6 null mice displayed a lethal inflammatory phenotype, whereas BTB mutant mice experienced normal healthy lives with no inflammation. Bcl6 repression of inflammatory responses in macrophages was accordingly independent of the BTB domain repressor function. Bcl6 thus mediates its actions through lineage-specific biochemical functions.