Project description:The innate immune system acts as the first line of defense against invasion of microbial pathogens. Here, macrophages play a substantial role in recognition, phagocytosis and killing of pathogens and the regulation of the innate immune response. Here, interferons play a crucial role in augmenting the antimicrobial functions of macrophages and their ability to produce mediators of immunoregulation. Pathogen recognition activates many different signaling pathways that interact to produce an innate response commensurate with the microbial challenge. The co-occurrence of signaling by sensors of stress and IFN receptors is a hallmark of innate responses to many viral and bacterial pathogens. Our results show how Anisomycin, a drug that induces stress-activation of MAPK pathways, regulates mRNA expression of interferon stimulated genes (ISG) upon IFNg and IFNb stimulation

Project description:The innate immune system acts as the first line of defense against invasion of microbial pathogens. Here, macrophages play a substantial role in recognition, phagocytosis and killing of pathogens and the regulation of the innate immune response. Here, interferons play a crucial role in augmenting the antimicrobial functions of macrophages and their ability to produce mediators of immunoregulation. Pathogen recognition activates many different signaling pathways that interact to produce an innate response commensurate with the microbial challenge. The co-occurrence of signaling by sensors of stress and IFN receptors is a hallmark of innate responses to many viral and bacterial pathogens. Our results show c-Jun and CREB binding upon Anisomycin, a drug that induces stress-activation of MAPK pathways, IFNg stimulation and the combination of both or with p38 inhibitor PH-797804 and JNK inhibitor SP600125, Anisomycin and IFNg.

Project description:The innate immune system acts as the first line of defense against invasion of microbial pathogens. Here, macrophages play a substantial role in recognition, phagocytosis and killing of pathogens and the regulation of the innate immune response. Here, interferons play a crucial role in augmenting the antimicrobial functions of macrophages and their ability to produce mediators of immunoregulation. Pathogen recognition activates many different signaling pathways that interact to produce an innate response commensurate with the microbial challenge. The co-occurrence of signaling by sensors of stress and IFN receptors is a hallmark of innate responses to many viral and bacterial pathogens. Our results show changes in chromatin accessibility upon Anisomycin, a drug that induces stress-activation of MAPK pathways, IFNb stimulation and the combination of both or with p38 inhibitor PH-797804, Anisomycin and IFNb.

Project description:We provide a new psoriasis mouse model which is induced by p38 activation in skin. We compared the individual transcriptomic profiles of anisomycin and imiquimod-induced dermatitis. We used microarrays to compare the gene expression pattern between anisomycin- and imiquimod- induced dermatitis.

Project description:Anisomycin is known as a potent apoptosis inducer by activating JNK/SAPK and inhibiting protein synthesis during translation. However, only few details are known on the mechanism of apoptosis induced by this compound. Genes in apoptosis induced by anisomycin in human leukemia U937 cells were investigated by using an Affymetrix GeneChip system. DNA fragmentation and phosphatidylserine externalization assays clearly demonstrated that anisomycin induced apoptosis in a time- and concentration- dependent manner. Of 22,283 probe sets analyzed, this compound down-regulated 524 probe sets and up-regulated 523 by a factor 1.5 or greater. Keywords: anisomycin, gene expression, Human lymphoma U937 cell

Project description:Genome-wide survey of ribosome collision [anisomycin]

Project description:Severe LRIs are a major cause of infant/child hospitalization and a risk factors for asthma pathogenisis. Innate immune interactions with microbial pathogens, esp. in early life, underpin risk. We aimed to characterize cord blood mononuclear cell (CBMC) responses to activation of micriobial recognition receptors (TLRs 3, 4, & 7) and identify response pattern variations associated withsLRI susceptibility in infancy.

Project description:Expression data from anisomycin- and imiquimod-induced dermatitis

Project description:Innate immune signaling protects against pathogens, controls hematopoietic development and functions in oncogenesis, yet the relationship between these mechanisms is incompletely defined. Downregulating the GATA2 transcription factor in fetal hematopoietic progenitor cells upregulates genes encoding innate immune regulators, increases Interferon-g (IFNg) signaling and disrupts differentiation. Here, we demonstrate that deletion of an enhancer that confers GATA2 expression in fetal progenitor cells elevated Toll-Like Receptor (TLR) TLR1/2 and TLR2/6 expression and signaling. Genetic rescue by expressing GATA2 downregulated the elevated TLR signaling. IFNg amplified TLR1/2 and TLR2/6 signaling in GATA2-deficient progenitor cells, synergistically activating cytokine/chemokine genes and elevating cytokine/chemokine production in their myeloid cell progeny. Genome-wide analysis of how IFNg and TLR signaling remodels the progenitor cell transcriptome in GATA2-deficient cells revealed exaggerated responses at innate immune genes harboring motifs for signal-dependent transcription factors. Thus, GATA2 establishes a transcriptome that constrains innate immune signaling, and insufficient GATA2 renders fetal progenitor cells hypersensitive to innate immune signaling.

Project description:Adjuvants are critical for the success of vaccines, and agonists for microbial pattern recognition receptors are promising new candidates. A mechanism for the immune enhancing role of adjuvants is to stimulate innate immunity. We studied the innate immune response in humans to synthetic double stranded RNA (poly ICLC), a ligand for TLR3 and MDA-5 cytosolic RNA helicase. Transcriptional analysis of blood samples from eight volunteers, after subcutaneous administration of poly ICLC showed upregulation of genes involved in multiple innate immune pathways in all subjects, including interferon and inflammasome signaling. Blocking of type I interferon receptor ex vivo significantly dampened the response to poly IC. Comparative transcriptional analysis showed that several innate pathways were similarly induced in volunteers immunized with the highly efficacious Yellow Fever Vaccine. Therefore a chemically defined microbial agonist like poly ICLC can be a reliable and authentic microbial mimic for inducing innate immunity, here for a live attenuated viral vaccine in humans. GSM813292-GSM813386: RNA expression obtained at different time points from Human blood after poly ICLC administration compared to RNA expression obtained from Human blood after placebo administration GSM813387-GSM813410: Blocking of type I interferon receptor ex vivo followed by poly IC stimulation