Project description:Transcriptional profiling of mouse tumor-specific cytotoxic T lymphocytes (CTL) comparing activation-induced gene expression profiles induced by tumor-specific antigen (Ag) and CD3 mAb. CTLs were stimulated with either Ag or CD3 mAb for 3 and 24 h, respectively. The stimulated CTLs were compared to un-stimulated CTLs. The objective was to identify differential gene expression profiles induced by the two activation (Ag vs CD3 mAb) conditions. Two-condition experiments, un-stimulated vs stimulated CTLs. Biological replicates: 3 replicates for each comparison. Unstimulated CTLs were compared to stimulated CTLs (Ag and CD3 mAb, respectively).

Project description:Programmed cell death 1 ligand 1 (PD-L1) is known to suppress immune system and to be an unfavorable prognostic factor in ovarian cancer. The purpose of this study was to elucidate the function of PD-L1 in peritoneal dissemination. Tumor cell lysis by CTLs was attenuated when PD-L1 on tumor cells was overexpressed and promoted when it was silenced. PD-L1 overexpression also inhibited gathering and degranulation of CTLs. Gene expression profile of mouse CTLs caused by PD-L1-overexpressing ovarian cancer was related to human CTLs exhaustion. In mouse ovarian cancer dissemination models, depleting PD-L1 expression on tumor cells resulted in inhibited tumor growth in the peritoneal cavity and prolonged survival. Restoring immune function by inhibiting immune-suppressive factors such as PD-L1 may be a promising therapeutic strategy for peritoneal dissemination. Genome-wide transcriptional changes in OT-1 mouse CD8+ T cells that were co-incubated with OVA peptide-loaded ID8 mouse ovarian cancer cell lines. CTLs from 4 mice were devided into 2 groups, and co-incubated with PD-L1-overexpressed ID8 or PD-L1-depleted ID8.

Project description:We wished to examine early transcriptional changes that occur after TCR engagement in CD8+ cytotoxic T lymphocytes (CTLs). To this end, we differentiated effector CTLs from OTI TCR transgenic mice for 7 days in vitro and then stimulated them with anti-CD3 for various times before lysing for RNA-seq. Results demonstrated significant transcriptional changes starting from 20 minutes. After 60 minutes, upregulated genes were most enriched for cytokines and transcriptional machinery.

Project description:Effector cytotoxic T lymphocytes (CTLs) are critical for ridding the body of infected or cancerous cells. Recognition of an antigenic ligand by the CTL’s T cell receptor (TCR) triggers a signalling cascade that ultimately results in the targeted release of cytolytic granules and/or secretion of cytokines and chemokines to alert and recruit additional immune cells. These signalling cascades are capable of initiating transcription, translation, and cytoskeletal rearrangements. While previous work has demonstrated how translation and intracellular reorganisation contribute to CTL effector responses, the role of transcription is less well studied. To address this, we examined the impact of blocking transcription on the CTL proteome during TCR stimulation. These data demonstrated a strong transcriptional requirement for expression of cytokines and chemokines but not cytolytic molecules. Together with functional studies, these data reveal differential molecular control of the cell-cell communication and cytolytic functions of effector CTLs. CTLs exhibit complete and persistent priming for cytolytic activity prior to target cell encounter, but they require de novo transcription to recruit additional immune cells that amplify the response.

Project description:Recent work in immunometabolism has emphasised the role of mitochondria in both the innate and adaptive immune system. Mitochondria are important in T cell development and differentiation, but less is known about their role in CD8+ effector T cells (CTLs). We found that CTLs that lack the mitochondrial deubiquitinase USP30 undergo promiscuous mitophagy, destroying most of the cellular mitochondria. Surprisingly, this results in a markedly diminished killing capacity, while motility, signalling and secretion remain intact. This study uses quantitative DIA proteomics to measure the impact of USP30 deficiency on the global proteome of IL-2 maintained, 4.5 h TCR retriggered and 4.5 h TCR retriggered + cycloheximide CTL. Unexpectedly, inhibition of mitochondrial translation, through genetic or pharmacologic methods, was the mechanism by which CTL killing was impaired. Reduced mitochondrial translation triggered attenuated cytosolic translation which precluded replenishment of secreted effector molecules thereby limiting the capacity of CTLs to serially kill multiple targets. Thus, mitochondria emerge as a previously unappreciated homeostatic regulator of protein translation required for serial CTL killing.

Project description:Hepatocellular carcinoma (HCC) is one of the leading causes of cancer-related death. However, the mechanism for HCC initiation remains poorly known. Cdc42, a small Rho GTPase, with multiple cellular functions has been shown involved in variant types of human cancers, but its role in HCC initiation remains unclear. Cdc42 liver-specific knockout mice (Cdc42LK) developed HCC at 6-month-old. We used microarrays to detail the global programme of gene expression induced by Cdc42 deletion and identified distinct classes of up or down-regulated genes during HCC initial time.

Project description:Epithelial polarity is controlled by a polarity machinery including the Rho GTPase CDC42 and Scribble/PAR. By using intestinal stem cell (ISC)-specific deletion of CDC42 in Olfm4-IRES-eGFPCreERT2;CDC42flox/flox mice, we found that ISC-initiated CDC42 loss caused a drastic hyper-proliferation of transit amplifying (TA) cells and disrupted epithelial polarity. CDC42-null crypts displayed expanded TA cell and diminished ISC populations, accompanied by elevated hippo signaling via YAP/TAZ - Ereg and mTOR activation, independent from canonical Wnt signaling. YAP/TAZ conditional knockout restored the balance of ISC/TA cell populations and crypt proliferation but did not rescue the polarity in CDC42-null small intestine. mTOR or EGFR inhibitor treatment of CDC42 KO mice exhibited similar rescuing effects without affecting YAP/TAZ signaling. Inducible ablation of Scribble in intestinal epithelial cells mimics that of CDC42 KO defects including crypt hyperplasia and hippo signaling activation. Mammalian epithelial polarity regulates ISC and TA cell fate and proliferation via a hippo-Ereg-mTOR cascade.

Project description:GTPase-activating proteins (GAPs) and guanine nucleotide exchange factors (GEFs) function as negative and positive regulators of small GTPases, respectively, and play key roles in cell fate determination. The aberrant function of GAPs and GEFs has long been implicated in cancer development but their vast number and potential redundancy have hindered comprehensive understanding of their roles. Here we performed functional genetic screens of GAPs and GEFs in primary AML specimens to uncover an unexpected and selective role for ARHGAP45 in AML. Depletion of ARHGAP45 impedes AML growth without affecting normal human CD34+ cells in vivo. Epistasis screens revealed RhoA as the major substrate of ARHGAP45 and that depletion of the Rho GTPase CDC42 synergized with ARHGAP45 deletion. Consistent with this, pharmacologic CDC42 inhibition enhanced the effect of ARHGAP45 deletion. ARHGAP45 gives rise to a minor histocompatibility antigen (termed HA-1), which can be recognized by antigen-specific T cells. CDC42 inhibition not only sensitized AML cells to ARHGAP45 inhibition but also promoted the activity of HA-1 antigen-specific T cells by upregulating ARHGAP45-derived epitope in AML cells.

Project description:An enhancer of chr8 (chr8:579137-581436) was deleted using CRISPR and the effects of its deletion were assessed using ATAC-seq

Project description:Despite the prevalence of antisense transcripts in bacterial transcriptomes, little is known about how their synthesis is controlled. We report that a major function of the Escherichia coli termination factor Rho and its co-factor NusG is suppression of ubiquitous antisense transcription genome-wide. Rho binds C-rich unstructured nascent RNA (high C/G ratio) prior to its ATP-dependent dissociation of transcription complexes. NusG is required for efficient termination at minority subsets (~20%) of both antisense and sense Rho-dependent terminators with lower C/G ratio sequences. In contrast, a widely studied nusA deletion proposed to compromise Rho-dependent termination had no effect on antisense or sense Rho-dependent terminators in vivo. Global co-localization of the nucleoid-associated protein H-NS with Rho-dependent terminators and genetic interactions between hns and rho suggest that H-NS aids Rho in suppression of antisense transcription. The combined actions of Rho, NusG, and H-NS appear to be analogous to the Sen1-Nrd1-Nab3 and nucleosome systems that suppress antisense transcription in eukaryotes. Tiling expression microarray experiments were performed in cells treated with 20 ug/ml bicyclomycin or cells deleted for nusG, or a partial deletion of nusA. Labeled cDNAs were hybridized to an E. coli K-12 MG1655 tiling array with overlapping probes at ~12bp spacing across the entire genome. The series contains 14 datasets.