Project description:To understand the effects of Hsp60 deficiency in developing vertebrates, we generated CRISPR/Cas9-mediated hspd1 knockout zebrafish lines by targeting exon 2 to induce a frameshift mutation. We selected an allele with a 56 base pair deletion inducing a frameshift mutation leading to loss of protein functions. We examined the proteome changes in zebrafish larvae at 5 days post fertilization (DPF). Wildtype control and hspd1-/- larvae at 5dpf, were analyzed by TMT and nanoLC-MS/MS based proteomcis. For this purpose, we studied five pools from each genotype, and each pool consisted of five larvae.

Project description:We used zebrafish lacking functional csf1r to unravel how and when csf1r is necessary for the development of early tissue macrophages from embryonic macrophages. Transcriptomic analysis of mpeg+ macrophages revealed that csf1r deficient macrophages show a macrophage transcriptome, but reduced expression of cell cycle and RNA/DNA metabolism related genes. Transcriptional changes over time were similar between wildtype controls als csf1r deficient embryonic macrophages.

Project description:In adult mice the majority of intestinal macrophages exhibit a mature phenotype and are derived from blood monocytes. In the steady state replenishment of these cells is reduced in the absence of the chemokine receptor Ccr2. Within the intestine of mice with colitis there is marked increase in the accumulation of immature macrophages that demonstrate an inflammatory phenotype. However, whether Ccr2 is necessary for the accumulation of these immature macrophages and further for the development of colitis in susceptible mouse models is incompletely defined. Here, we ask whether Ccr2 is necessary for the development of colitis in mice lacking the receptor for IL10. We compared the development of intestinal inflammation in mice lacking IL10RA or both IL10RA and Ccr2. The absence of Ccr2 interfered with the accumulation of immature macrophages in IL10R-deficien mice, including a novel population of rounded submucosal Iba1+ cells and reduced the severity of colitis in these mice. In contrast, the absence of Ccr2 did not reduce augmented inflammatory gene expression observed in mature intestinal macrophages isolated from mice lacking IL10RA. These data suggest that both newly recruited Ccr2-dependent immature macrophages and Ccr2-independent residual mature macrophages contribute to the development of intestinal inflammation observed in IL10R-deficient mice.

Project description:mRNA expression levels were determined by NGS for wildtype larvae as well as for larvae lacking HP1a [Su(var)205^04/Su(var)205^05 transheterozygotes].

Project description:Mycobacteria infect macrophages that aggregate with additional macrophages and lymphocytes to form granulomas. We have used a functional genomics approach to identify immune response genes expressed during granuloma formation in Mycobacterium marinum-infected transparent zebrafish larvae where individual infection steps can be viewed in real time. We assessed RNA expression profiles from zebrafish larvae that were either infected with Mycobacterium marinum or mock-infected. Zebrafish infections were performed at 1 day post-fertilization (dpf), and samples were derived from pools of 6dpf zebrafish larvae. Keywords: host response to infection

Project description:Mycobacteria infect macrophages that aggregate with additional macrophages and lymphocytes to form granulomas. We have used a functional genomics approach to identify immune response genes expressed during granuloma formation in Mycobacterium marinum-infected transparent zebrafish larvae where individual infection steps can be viewed in real time. We assessed RNA expression profiles from zebrafish larvae that were either infected with Mycobacterium marinum, mock-infected, or uninfected. Zebrafish infections were performed at 1 day post-fertilization (dpf), and samples were derived from pools of 6dpf zebrafish larvae. Keywords: host response to infection

Project description:Transcriptome analysis of the heads of 5 dpf epdc5-/-, tsc2-/-, depdc5-/- x tsc2-/- and wildtype zebrafish larvae to provide insights into the neuropathological processes underlying the observed epileptic phenotype in sv2a-/- zebrafish larvae.

Project description:Despite the involvement of several serine hydrolases (SHs) in the metabolism of xenobiotics such as dibutyl phthalate (DBP), no study has focused on mapping this enzyme class in zebrafish, a model organism frequently used in ecotoxicology. Here, we survey and identify active SHs in zebrafish larvae and search for biological markers of SH type after exposition to DBP. Zebrafish were exposed to 0, 5, and 100 µg/L DBP from 4 to 120 h post-fertilization. A significant decrease in vitellogenin expression level of about 2-fold compared to the control was found in larvae exposed to 100 µg/L DBP for 120h. The first comprehensive profiling of active SHs in zebrafish proteome was achieved with an activity-based protein profiling (ABPP) approach. Among 49 SHs identified with high confidence, one was the carboxypeptidase ctsa overexpressed in larvae exposed to 100 µg/L DBP for 120h. To the best of our knowledge, this is the first time that a carboxypeptidase has been identified as deregulated following exposure to DBP. The overall results indicate that targeted proteomics approaches such as ABPP can therefore be an asset for understanding the mechanism of action related to xenobiotics in ecotoxicology.

Project description:Lysosomal cathepsins regulate an exquisite range of biological functions, and their deregulation is associated with inflammatory, metabolic and degenerative disease in humans. Here, we identified a key cell-intrinsic role for cathepsin B as a negative feedback regulator of lysosomal biogenesis and autophagy. Mice and macrophages lacking cathepsin B activity had increased resistance to the cytosolic bacterial pathogen Francisella novicida. Genetic deletion or pharmacological inhibition of cathepsin B downregulated mTOR activity and prevented cleavage of the lysosomal calcium channel TRPML1. These events drove transcription of lysosomal and autophagy genes via the transcription factor TFEB, which increased lysosomal biogenesis and activation of autophagy-initiation kinase ULK1 for clearance of the bacteria. Our results identified a fundamental biological function of cathepsin B in providing a checkpoint for homeostatic maintenance of lysosome population and basic recycling functions in the cell. We used microarrays to explore the gene expression profiles differentially expressed in bone marrow-derived macrophages (BMDM) isolated from cathepsin B-/- and wild-type mice.

Project description:mRNA expression levels were determined by NGS for wildtype larvae as well as for larvae lacking HP1a [Su(var)205^04/Su(var)205^05 transheterozygotes]. RNA samples from wildtype (OR) and HP1a mutant third instar larvae were examined, using duplicate biological samples and Illumina NGS.