Project description:Modulation of cAMP levels by a conserved actinobacteria phosphodiesterase enzyme reduces antimicrobial tolerance in mycobacteria

Project description:Type 1 adenylyl cyclase (ADCY1) is a main enzyme to produce cyclic AMP (cAMP) upon activation of G-protein coupled receptors and increase of intracellular calcium. It regulates cAMP signaling and in turn affects physiological functions including neural plasticity, cognition, motor function, cell survival, and neuropathic pain. We used microarrays to determine the effect of a known ADCY1 inhibitor NB001 on gene transcription.

Project description:Here we report the gene expression profile of in vitro cultured human endometrial stromal cells treated with siRNA targeting FOXO1 piror to eutherian differentiation media exposure. The eutherian differentiation media contains cyclic AMP (cAMP) analogue 8-Br-cAMP and the progesterone (P4) analogue medroxyprogesterone acetate (MPA).

Project description:We have previously reported that Mycobacterium tuberculosis Rv2837c (cnpB) encodes a phosphodiesterase that specifically cleaves cyclic di-AMP (c-di-AMP) into AMP. Deletion of cnpB results in significant virulence attenuation in a mouse pulmonary infection model, which is very likely due to the significantly elevated c-di-AMP levels as overexpression of Mtb diadenylate cyclase, disA, also leads to a similar outcome. An earlier study also demonstrated that CnpB functions similarly to E. coli oligoribonuclease (Orn) that hydrolyzes 2-5-mer nanoRNAs (short oligonucleotides of five residues or shorter in length) except that CnpB prefers 2-mer nanoRNA as a substrate. Additionally, a recent report showed that CnpB also degrades cyclic di-GMP (c-di-GMP), although we demonstrated that CnpB prefers c-di-AMP to c-di-GMP according to an in vitro enzymatic kinetics analysis In this study, we initially attempted to determine c-di-AMP-mediated gene regulation in Mtb by comparing the expression profiles between WT and ∆cnpB using RNA-Seq. We found that the CRISPR-Cas system of M. tuberculosis was highly upregulated by deletion of cnpB.

Project description:Cyclic AMP activates two downstream factors, protein kinase A (PKA) and exchange protein directly activated by cAMP (EPAC) and both downstream signalings induce syncytialization, cell fusion and the production of hCG and progesterone. We used microarray to identify novel transcription factors related to syncytialization in two cAMP signaling-stimulated BeWo cells.

Project description:Transcriptome analysis of cyclic AMP (cAMP) response in bovine cumulus cells

Project description:It is well appreciated that reactive oxygen species (ROS) are deleterious to mammals, including humans, especially when generated in abnormally large quantities from cellular metabolism. Whereas the mechanisms leading to the production of ROS are rather well delineated, the mechanisms underlying tissue susceptibility or tolerance to oxidant stress remain elusive. Through an experimental selection over many generations, we have previously generated Drosophila melanogaster flies that tolerate tremendous oxidant stress and have shown that the family of antimicrobial peptides (AMP) is over-represented in these tolerant flies. Furthermore, we have also demonstrated that overexpression of even one AMP at a time (e.g. Diptericin) allows wild type flies to survive much better in hyperoxia. In the current study, we used a number of experimental approaches to investigate the potential mechanisms underlying hyperoxia tolerance in flies with antimicrobial peptide overexpression. We demonstrate that flies with Diptericin overexpression resist oxidative stress by increasing antioxidant enzyme activities and preventing an increase in ROS level after hyperoxia. Depleting the GSH pool using buthionine sulfoximine limits fly survival, thus confirming that enhanced survival observed in these flies is related to improved redox homeostasis. We conclude that a) AMPs play an important role in tolerance to oxidant stress; b) overexpression of Diptericin changes the cellular redox balance between oxidant and antioxidant, and c) this change in redox balance plays an important role in survival in hyperoxia. Expression profiles of Drosophila melanogaster with anti-microbial peptide over-expression (experimental sample; n=3) and controls (UAS-AMP alone not crossed to da-GAL4; n=3) were determined using Affymetrix Drosophila Genome 2.0 Arrays.

Project description:Difference in RNA expression levels between Acinetobacter baumannii cells expressing high and low levels of cyclic AMP Total RNA obtained from Acineotbacter baumannii bacterial cells in Log phase gown in MH broth culture, isolated RNA in triplicate from three expreiment. cpdA::Tn mutant and 17978hm strain compared. Assessing increased levels of cAMP within the cell

Project description:The development of an effective vaccine to protect against HIV acquisition will be greatly bolstered by in-depth understanding of the innate and adaptive responses to the virus. We report here that the efficacy of DNA/ALVAC/gp120/alum vaccines, based on V2-specific antibodies mediating apoptosis of infected cells (V2-ADCC), is complemented by efferocytosis, a cyclic AMP (cAMP)-dependent antiphlogistic engulfment of apoptotic cells by CD14+ monocytes. Central to vaccine efficacy is the engagement of the CCR2+/CCL2 axis and tolerogenic dendritic cells producing IL-10 (DC-10). Durable epigenetic reprogramming in CD14+ cells of the cyclic AMP/CREB pathway and increased levels of miRNA-139-5p, a negative regulator of expression of the cAMP-specific phosphodiesterase PDE4D, in extracellular vesicles correlated with vaccine efficacy. These data posit that efferocytosis, through the prompt and effective removal of apoptotic infected cells, contributes to vaccine efficacy by decreasing inflammation and maintaining tissue homeostasis.

Project description:CREM (cAMP responsive element modulator) together with CREB and ATF-1 belong to the CREB family of transcriptional factors, that respond to cyclic AMP signaling and bind to cAMP responsive element (CRE) sites in promoters of selected genes. CREM can produce isoforms that have either activating or repressing functions, depending on the transcription of specific exons. In testis, it is involved in the regulation of spermatogenesis. In this dataset, we include the expression data obtained from wild-type and Crem knock-out mouse testis.