Project description:To examine the role of platelets in mouse monocyte function, we administered anti-GPIba antibody to deplete platelets or IgG as a control to 48 mice. After 12 hours, mice were either exposed to LPS or PBS (as a sham control) for 3 hours. Peripheral blood mononuclear cells (PBMCs) were collected, and monocytes were sorted into QIAzol lysis buffer. The experimental setup included 4 conditions, with each condition repeated 3 times. In each experiment, the blood from 4 mice was pooled to generate biological replicates of 12 mice, distributed into 4 groups: Sham mice (IgG) treated with PBS (n = 3) Sham mice (IgG) treated with LPS (n = 3) Platelet-depleted mice (anti-GPIba) treated with PBS (n = 3) Platelet-depleted mice (anti-GPIba) treated with LPS (n = 3) After these treatments, mouse Ly6G− IA/IE− CD45+ CD11b+ CD115+ monocytes were FACS-sorted directly into Quiazol for RNA extraction. The lysed samples were sent to GENEWIZ for RNA isolation and bulk RNA-seq analysis. RNA extraction and library preparation were conducted according to the GENEWIZ (Azenta Life Sciences) pipeline. Ultra-low input RNA-Seq was performed on Illumina HiSeq PE 2x150 bp with approximately 350M reads. Subsequently, reads were mapped to the Mus musculus GRCm38 reference genome (ENSEMBL) using the STAR aligner v.2.5.2b, and unique gene hit counts were generated with featureCounts from the Subread package v.1.5.2. Standard analysis was performed by GENEWIZ, including differential gene expression analysis using DESeq2. p-values and log2 fold changes were calculated using the Wald test, with genes meeting criteria of adjusted p-value < 0.05 and absolute fold change > 2 considered significantly differentially expressed genes (DEGs). Gene ontology (GO) analysis of significant DEGs was conducted by GENEWIZ (Azenta Life Sciences) using the Fisher exact test.\\" *Our goal is to assess the alternations on transcription levels (mRNA-Seq) between the different groups. Twelve samples contain 500 - 10000 mouse monocytes that were directly sorted into 1 ml QIAzol. **Experimental setting: samples were generated from three independent experiments (biological replicates N1, N2 and N3), each on a different day. Each experiment consisted of 4 different groups: Group 1: treated with IgG + PBS Group 2: treated with IgG + LPS challenge Group 3: treated with AntiGPIb + PBS Group 4: treated with AntiGPIb + LPS challenge First run with biological replicates Nr. 1 (indicated as \\"N1\\") contained samples 1 - 4. Second run with biological replicates Nr. 2 (indicated as \\"N2\\") contained samples 5 - 8. Third run with biological replicates Nr. 3 (indicated as \\"N3\\") contained samples 9 - 12. Experimental questions/analysis: 1) what is the effect of AntiGPIb treatment w.o LPS challenge? i.e. \\"Group 3 (Treatment) vs. Group 1(Ctrl)\\" 2) what is the effect of LPS in \\"Group 2 (Treatment) vs. Group 1 (Ctrl)\\" as well as \\"Group 4 (Treatment) vs. Group 3 (Ctrl)\".

Project description:We identified alpha-zein as a novel antigen recognized by intestinal Tregs. This experiment was designed to compare Zein-reactive intestinal Tregs to either OVA-specific Tregs (OTII) or bulk population of Tregs from chow fed, amino acid diet fed, or germ-free mice.

Project description:RNA-seq datasets of wildtype, TMEM2-OE, or TMEM2-OE TGFBR1-KO BJ cells. Four replicates per condition.

Project description:Human embryonic stem cells (hESCs) are isolated from the inner cell mass of the blastocysts. The pluripotent properties of hESCs enable the derivation of cell-types or tissues of different lineages for potential applications such as therapeutics discovery and regenerative medicine. Even though hESCs are pluripotent, differences have been observed when compared to the native pluripotent epiblast cells of the blastocyst. We use a chemical approach (3iL: 3 small molecule inhibitor and cytokine) to induce an expression signature that more closely resembles native pluripotent cells. This experiment is STAT3 binding data in 3iL hESCs.

Project description:Anthropogenic marine noise is increasing around the world and is known to have detrimental effects on many taxa from cetaceans, right down to invertebrates, including marine mussels. Here, we wished to examine the transcriptional changes induced following a week of underwater noise exposure in the gill tissue of blue mussels, and the subsequent response to opportunistic pathogen Vibrio splendidus in control versus noise-exposed animals.

Project description:We hypothesized that treating heart failure mitigates its impact on cancer progression and that different treatments (carvedilol, enalapril, empagliflozin) may have distinct effects. For this reason we have created an mouse model combining both heart failure (LAD ligation) and 4T1 metastatic breast cancer to study the effects of these treatments on breast cancer development at different levels: primary tumor growth in vivo, metastasis development and RNA-sequencing of the primary tumor. Twenty samples divided in five different groups were analyzed with RNA sequencing: group 1= Ctrl; group 2= HF/veh; group 3= HF/car; group 4= HF/emp group 5 HF/ena. HF medications with different mechanisms of action had distinct effects on 4T1 progression when the two diseases coexisted. These effects varied from isolated effects on the tumor transcriptome, to effects on the expansion of the primary tumor and on metastatic spread in the lungs.

Project description:Anthropogenic marine noise is increasing around the world and is known to have detrimental effects on many taxa from cetaceans, right down to invertebrates, including marine mussels. Here, we wished to examine the transcriptional changes induced following a week of underwater noise exposure in the gill tissue of blue mussels, and the subsequent response to opportunistic pathogen Vibrio splendidus in control versus noise-exposed animals.

Project description:Human embryonic stem cells (hESCs) are isolated from the inner cell mass of the blastocysts. The pluripotent properties of hESCs enable the derivation of cell-types or tissues of different lineages for potential applications such as therapeutics discovery and regenerative medicine. Even though hESCs are pluripotent, differences have been observed when compared to the native pluripotent epiblast cells of the blastocyst. We use a chemical approach (3iL: 3 small molecule inhibitor and cytokine) to induce an expression signature that more closely resembles native pluripotent cells. To better understand the difference between this hESC state and the conventional hESC state, we generated the global expression profiles using RNA-seq.

Project description:MicroRNAs are well known to mediate translational repression and mRNA degradation in the cytoplasm. Various microRNAs have also been detected in membrane-compartmentalized organelles, but the functional significance has remained elusive. Here we report that miR-1, a microRNA specifically induced during myogenesis, efficiently enters the mitochondria where it unexpectedly stimulates, rather than represses, the translation of specific mitochondrial genome-encoded transcripts. We show that this positive effect requires specific miR:mRNA base-pairing and Ago2, but not its functional partner GW182, which is excluded from the mitochondria. We provide evidence for the direct action of Ago2 in mitochondrial translation by Ago2 CrossLinking ImmunoPrecipitation coupled with sequencing (CLIP-seq), functional rescue with mitochondria-targeted Ago2, and selective inhibition of the microRNA machinery in the cytoplasm. These findings unveil a positive function of microRNA in mitochondrial translation and suggest a highly coordinated myogenic program via miR-1 mediated translational stimulation in the mitochondria and repression in the cytoplasm. Examination of miRNA's regulation function in mitochondria in C2C12 myoblasts cells and myotubes cells with CLIP-seq (Ago2).

Project description:Bulk RNA-seq profiling of untreated human cell lines derived from blood, breast and bladder tissues (MCF7, MDA-MB-231, KMCB2, Jurkat) to characterise baseline transcriptional differences across cellular contexts.