Project description:Granulocytes stimulated by Recombinant N protein (rNP)

Project description:Expression data from stimulated NK cells

Project description:RNAs interact with networks of proteins to form complexes (RNPs) that govern many biological processes, but inter-protein networks on RNA are currently impossible to examine in a comprehensive way. We developed a live-cell RNP-MaP (RNP network analysis by mutational profiling) chemical probing strategy for mapping simultaneous binding by and cooperative interactions among multiple proteins with single RNA molecules at nucleotide resolution. RNP-MaP revealed that two structurally related, but sequence-divergent noncoding RNAs, RNase P and RMRP, share nearly identical RNP networks and, further, that protein-mediated structural communication identifies function-critical network hubs in these RNAs. RNP-MaP identified previously unknown protein interaction networks within the XIST long noncoding RNA that are conserved between mouse and human RNAs and defined silencing, compartmentalization and splicing communities of proteins whose binding sites are networked together on XIST. The XIST E region contains a dense network of protein interactions, and including PTBP1, MATR3, and TIA1 proteins , which RNP-MaP revealed to each bind the XIST E region via two distinct interaction modes.; Depletion of PTBP1 and MATR3 caused native XIST particles to disperse and disappear in a human cell line. the The highly networked XIST E region was sufficient to mediate XIST RNA-like foci formation in cells. RNP-MaP enables discovery and prioritization of in-cell protein interaction networks critical for function in long RNAs, in the absence of pre-existing knowledge about protein binding sites.

Project description:RNA binding proteins (RBPs) control varied processes, including RNA splicing, stability, transport, and translation. Dysfunctional RNA-RBP interactions contribute to the pathogenesis of human disease, however, characterizing the nature and dynamics of multiprotein assemblies on RNA has been challenging. To address this, non-isotopic ligation-based ultraviolet crosslinking immunoprecipitation was combined with mass spectrometry (irCLIP-RNP) to identify RNA-dependent associated proteins (RDAPs) co-bound to RNA with any RBP of interest. irCLIP-RNP defined landscapes of multimeric protein assemblies on RNA, uncovering previously unknown patterns of RBP-RNA associations, including cell-type-selective combinatorial relationships between RDAPs and primary RBPs. irCLIP-RNP also defined dynamic RDAP remodeling in response to epidermal growth factor (EGF), uncovering EGF-induced recruitment of UPF1 adjacent to HNRNPC to effect splicing surveillance of cell proliferation mRNAs. To identify the RNAs simultaneously co-bound by multiple studied RBPs, a sequential immunoprecipitation irCLIP (Re-CLIP) method was also developed. Re-CLIP confirmed binding relationships seen in irCLIP-RNP and identified HNRNPC and UPF1 RBP co-binding on RND3 and DDX3X mRNAs. irCLIP-RNP and Re-CLIP provide a framework to identify and characterize dynamic RNA-protein assemblies in living cells.

Project description:RNA binding proteins (RBPs) control varied processes, including RNA splicing, stability, transport, and translation. Dysfunctional RNA-RBP interactions contribute to the pathogenesis of human disease, however, characterizing the nature and dynamics of multiprotein assemblies on RNA has been challenging. To address this, non-isotopic ligation-based ultraviolet crosslinking immunoprecipitation was combined with mass spectrometry (irCLIP-RNP) to identify RNA-dependent associated proteins (RDAPs) co-bound to RNA with any RBP of interest. irCLIP-RNP defined landscapes of multimeric protein assemblies on RNA, uncovering previously unknown patterns of RBP-RNA associations, including cell-type-selective combinatorial relationships between RDAPs and primary RBPs. irCLIP-RNP also defined dynamic RDAP remodeling in response to epidermal growth factor (EGF), uncovering EGF-induced recruitment of UPF1 adjacent to HNRNPC to effect splicing surveillance of cell proliferation mRNAs. To identify the RNAs simultaneously co-bound by multiple studied RBPs, a sequential immunoprecipitation irCLIP (Re-CLIP) method was also developed. Re-CLIP confirmed binding relationships seen in irCLIP-RNP and identified HNRNPC and UPF1 RBP co-binding on RND3 and DDX3X mRNAs. irCLIP-RNP and Re-CLIP provide a framework to identify and characterize dynamic RNA-protein assemblies in living cells.

Project description:We performed transcriptome sequencing on Neo-2/15 stimulated CAR NK cells,to shed light on the function and phenotype changes of CAR-NK cells stimulated by IL-2 and Neo-2/15.

Project description:Genome wide expression profiling of human NK cells stimulated with K562 erythroleukemic tumor cells after four hours of NK-tumor co-culture. Responding NK cells were compared to non-responding NK cells, delineated by display of CD107 on the NK cell surface following cytotoxic granule release. We hypothesized that tumor responses would initiate rapid changes in gene expression in the NK cell that would identify new features of the anti-tumor response of NK cells. Results identify NK cell activation responses and induction of TNF superfamily molecules with immunoregulatory activity. Human peripheral blood NK cells were co-cultured with tumor target cell line K562 for 4 hours with GolgiStop (brefeldin) then stained for granule exocytosis marker CD107a / CD107b, and NK cell markers then FACS sorted for responding NK cells (CD107+) and non-responding NK cells (CD107-). Pooled donor sample comprised NK cells from 3 individuals.

Project description:RNA-seq analysis of primary hepatocytes isolated from C57BL/6N mice, stimulated with IL-1β recombinant protein to examine the transcriptional response to inflammatory signaling.

Project description:Transcriptional profiling of NKAES-derived NK cells after 7 days of culture compared to primary human NK cells and NK cells stimulated by low or high dose IL2 after 7 days of culture. Four-condition experiment, primary NK cells vs. NKAES-derived NK cells after 7 days of culture vs. NK cells stimulated by low/high dose IL2 after 7 days of culture. Biological replicates: 5 control, 5 NKAES-derived NK cells, 3 NK cells stimulated by low dose IL2, 3 NK cells stimulated by high dose IL2 independently grown and harvested. One replicate per array.

Project description:Genome wide expression profiling of human NK cells stimulated with K562 erythroleukemic tumor cells after four hours of NK-tumor co-culture. Responding NK cells were compared to non-responding NK cells, delineated by display of CD107 on the NK cell surface following cytotoxic granule release. We hypothesized that tumor responses would initiate rapid changes in gene expression in the NK cell that would identify new features of the anti-tumor response of NK cells. Results identify NK cell activation responses and induction of TNF superfamily molecules with immunoregulatory activity.