Project description:The alveolar macrophages (AMs) as a component of the innate immunity of the lung play important role in the elimination of inhaled microbes and harmful agents. The transcription factor EGR2 is a known marker transcription factor of AMs but its exact epigenetic and transcriptomic effects have not been examined. In our study, we performed ATAC-seq, RNA-seq, and CUT&RUN in WT and EGR2 deficient alveolar macrophages to describe the mechanism of action and to predict potential direct target genes of EGR2. Clec7a is one of the targets of this transcription factor which is essential in the zymosan-induced inflammatory response. We further analyzed this process by applying in vivo mouse model. Our findings demonstrate that EGR2 is a key transcriptional activator, responsible for the intact protective program against different pathogens, especially fungi in AMs.
Project description:The alveolar macrophages (AMs) as a component of the innate immunity of the lung play important role in the elimination of inhaled microbes and harmful agents. The transcription factor EGR2 is a known marker transcription factor of AMs but its exact epigenetic and transcriptomic effects have not been examined. In our study, we performed ATAC-seq and RNA-seq in WT and EGR2 deficient alveolar macrophages to describe the mechanism of action and to predict potential direct target genes of EGR2. Clec7a is one of the targets of this transcription factor which is essential in the zymosan-induced inflammatory response. We further analyzed this process by applying in vivo mouse model. Our findings demonstrate that EGR2 is a key transcriptional activator, responsible for the intact protective program against different pathogens, especially fungi in AMs.
Project description:The alveolar macrophages (AMs) as a component of the innate immunity of the lung play important role in the elimination of inhaled microbes and harmful agents. The transcription factor EGR2 is a known marker transcription factor of AMs but its exact epigenetic and transcriptomic effects have not been examined. In our study, we performed ATAC-seq and RNA-seq in WT and EGR2 deficient alveolar macrophages to describe the mechanism of action and to predict potential direct target genes of EGR2. Clec7a is one of the targets of this transcription factor which is essential in the zymosan-induced inflammatory response. We further analyzed this process by applying in vivo mouse model. Our findings demonstrate that EGR2 is a key transcriptional activator, responsible for the intact protective program against different pathogens, especially fungi in AMs.
Project description:BackgroundGlobozoospermia is a male infertility phenotype characterized by the presence in the ejaculate of near 100% acrosomeless round-headed spermatozoa with normal chromosomal content. Following intracytoplasmic sperm injection (ICSI) these spermatozoa give a poor fertilization rate and embryonic development. We showed previously that most patients have a 200 kb homozygous deletion, which includes DPY19L2 whole coding sequence. Furthermore we showed that the DPY19L2 protein is located in the inner nuclear membrane of spermatids during spermiogenesis and that it is necessary to anchor the acrosome to the nucleus thus performing a function similar to that realized by Sun proteins within the LINC-complex (Linker of Nucleoskeleton and Cytoskeleton). SUN1 was described to be necessary for gametogenesis and was shown to interact with the telomeres. It is therefore possible that Dpy19l2 could also interact, directly or indirectly, with the DNA and modulate gene expression during spermatogenesis. In this study, we compared the transcriptome of testes from Dpy19l2 knock out and wild type mice in order to identify a potential deregulation of transcripts that could explain the poor fertilization potential of Dpy19l2 mutated spermatozoa.MethodsRNA was extracted from testes from DPY19L2 knock out and wild type mice. The transcriptome was carried out using GeneChip® Mouse Exon 1.0 ST Arrays. The biological processes and molecular functions of the differentially regulated genes were analyzed with the PANTHER software.ResultsA total of 76 genes were deregulated, 70 were up-regulated and 6 (including Dpy19l2) were down-regulated. These genes were found to be involved in DNA/RNA binding, structural organization, transport and catalytic activity.ConclusionsWe describe that an important number of genes are differentially expressed in Dpy19l2 mice. This work could help improving our understanding of Dpy19l2 functions and lead to a better comprehension of the molecular mechanism involved in spermatogenesis.
