Project description:Differential response of bovine mammary epithelial cells to Staphylococcus aureus or Escherichia coli agonists of the innate immune system. Mastitis caused by Escherichia coli and Staphylococcus aureus is a major pathology of dairy cows. To better understand the differential response of the mammary gland to these two pathogens, we stimulated bovine mammary epithelial cells (bMEC) with either E. coli crude lipopolysaccharide (LPS) or with S. aureus culture supernatant (SaS) to compare the transcriptomic profiles of the initial bMEC response (3 and 6 h of exposure to agonists). By using HEK 293 cells transfected with human pattern recognition receptors, the LPS preparation was found to stimulate TLR2 and TLR4 but not TLR5, Nod1 or Nod2, whereas SaS stimulated TLR2. Biochemical analysis revealed that lipoteichoic acid, protein A and alpha-hemolysin were all present in SaS, and bMEC were found to be responsive to each of these molecules. Transcriptome profiling by a microarray and confirmation by RT-qPCR revealed an innate immune response which was common to both LPS and SaS. However, LPS induced expression of a significant higher number of genes and the fold changes were of greated magnitude than those induced by SaS. Overall, the analysis of microarray data suggests that the activation pathways and the early chemokine and cytokine production preceded the defense and stress responses. Chemokines were among the most up-regulated genes, in particular ELRCXC chemokines that target neutrophils. A major differential response was the activation of the type I IFN pathway by LPS but not by SaS. This was in accordance with the much stronger up-regulation of Cxcl10, Ccl5 and Nos2 by LPS than by SaS. The higher upregulation of chemokines that target mononuclear leucocytes (CXCL10, CCL2, CCL5 and CCL20) by LPS than by SaS is likely to be related to the differential activation of the type I IFN pathway, and could induce a different profile of the initial recruitment of leucocytes. It is noteworthy that at the protein level, secretion of TNF-alpha and IL-1-beta was not induced by either stimulus. These results suggest that the response of MEC to diffusible bacterial stimuli is able to contribute to the onset of the response with differential leucocyte recruitment but does not account directly for the differential production of major pro-inflammatory cytokines. Transcriptional profiling of bovine mammary epithelial cells (Holstein breed) comparing untreated control with mammary epithelial cells (MECs) stimulated by Staphylococcus aureus (SA) versus Escherichia coli lipopolysaccharide (LPS). 16 microarrays (2 stimuli * 2 times * quadruplicate) in a two-color dye-swap experimental design. Untreated cells served as the control. One replicate per array. Log2-intensity of each dye was analyzed separately => 32 samples.

Project description:Differential response of bovine mammary epithelial cells to Staphylococcus aureus or Escherichia coli agonists of the innate immune system. Mastitis caused by Escherichia coli and Staphylococcus aureus is a major pathology of dairy cows. To better understand the differential response of the mammary gland to these two pathogens, we stimulated bovine mammary epithelial cells (bMEC) with either E. coli crude lipopolysaccharide (LPS) or with S. aureus culture supernatant (SaS) to compare the transcriptomic profiles of the initial bMEC response (3 and 6 h of exposure to agonists). By using HEK 293 cells transfected with human pattern recognition receptors, the LPS preparation was found to stimulate TLR2 and TLR4 but not TLR5, Nod1 or Nod2, whereas SaS stimulated TLR2. Biochemical analysis revealed that lipoteichoic acid, protein A and alpha-hemolysin were all present in SaS, and bMEC were found to be responsive to each of these molecules. Transcriptome profiling by a microarray and confirmation by RT-qPCR revealed an innate immune response which was common to both LPS and SaS. However, LPS induced expression of a significant higher number of genes and the fold changes were of greated magnitude than those induced by SaS. Overall, the analysis of microarray data suggests that the activation pathways and the early chemokine and cytokine production preceded the defense and stress responses. Chemokines were among the most up-regulated genes, in particular ELRCXC chemokines that target neutrophils. A major differential response was the activation of the type I IFN pathway by LPS but not by SaS. This was in accordance with the much stronger up-regulation of Cxcl10, Ccl5 and Nos2 by LPS than by SaS. The higher upregulation of chemokines that target mononuclear leucocytes (CXCL10, CCL2, CCL5 and CCL20) by LPS than by SaS is likely to be related to the differential activation of the type I IFN pathway, and could induce a different profile of the initial recruitment of leucocytes. It is noteworthy that at the protein level, secretion of TNF-alpha and IL-1-beta was not induced by either stimulus. These results suggest that the response of MEC to diffusible bacterial stimuli is able to contribute to the onset of the response with differential leucocyte recruitment but does not account directly for the differential production of major pro-inflammatory cytokines.

Project description:Background: S. aureus is one of the main pathogen involved in ruminant mastitis worldwide. The severity of staphylococcal infection is highly variable and ranges from subclinical to gangrenous mastitis. Such variability implies host as well as staphylococcal factors. This work is an in-depth characterization of S. aureus mastitis isolates to identify factors involved in mastitis severity. Methods and findings: We combined three “omic” approaches to comprehensively compare two clonally related S. aureus strains that were isolated from and shown to reproducibly induce severe (strain O11) and milder (strain O46) mastitis in ewes. The genomes of O11 and O46 were sequenced (Illumina technology) to determine their respective gene content and comparative transcriptomic and proteomic analyses were carried out on both strains grown in conditions mimicking mastitis context. High differences were highlighted in mobile genetic elements, iron acquisition and metabolism, transcriptional regulation and exoprotein production. In particular, O11 overproduced exoproteins, including toxins and proteases when compared to O46. This was confirmed in 4 other S. aureus strains isolated from subclinical or clinical mastitis cases. Dose-dependant production of some staphylococcal factors seem to play a role in hypervirulence of strains isolated from severe mastitis. Mobile genetic elements, transcriptional regulators, exoproteins or strain ability to deal with iron starvation constitute good targets for further research to better define the underlying mechanisms of mastitis severity. Conclusions: Differences observed in mastitis severity likely result from the ability of the strains to adapt and to express virulence factors in the mastitis context rather than from deep variations in gene content. Expression of S. aureus O46 from subclinical mastitis and O11 from a lethal gangrenous mastitis were compared at two different times

Project description:Purpose: To identify the expression profiling of miRNA in peripheral blood of dairy cows in response to S. aureus-infected mastitis and explore the biomarkers for early diagnosis of S. aureus-infected mastitis. Methods: RNAseq technology was used to determine the expression profiles of microRNA (miRNA) from peripheral blood of Chinese Holstein cows infected with S. aureus at 0, 1, 3, 5, and 7 days. Results: Ttal of 288 differentially expressed miRNAs (DIE-miRNA) including 108 known and 180 novel predicted miRNAs, involved in 10 immune system-related signaling pathways. Compare with the 0 dpi, the number of DIE-miRNAs in 1, 3, 5, and 7 dpi groups were 12, 21, 75, and 48, respectively. It was also found that the expression variation of up-regulated expression of miR-320a, miR-19a, and miR-19b as well as down-regulated expression of miR-143, miR‑205, and miR‑24 reached a significant level on the 5 dpi and 7 dpi. However, at different times after S. aureus infection, miR-1301 was significantly up-regulated in peripheral blood. miR-2284r was significantly down-regulated. Conclusion: miR-1301 and miR-2284r might be the new blood biomarkers for S. aureus-infected dairy cow mastitis. The above results laid a new foundation for the research and development of molecular diagnosis and biological therapy technology for S. aureus-infected mastitis in dairy cow.

Project description:Background: S. aureus is one of the main pathogen involved in ruminant mastitis worldwide. The severity of staphylococcal infection is highly variable and ranges from subclinical to gangrenous mastitis. Such variability implies host as well as staphylococcal factors. This work is an in-depth characterization of S. aureus mastitis isolates to identify factors involved in mastitis severity. Methods and findings: We combined three “omic” approaches to comprehensively compare two clonally related S. aureus strains that were isolated from and shown to reproducibly induce severe (strain O11) and milder (strain O46) mastitis in ewes. The genomes of O11 and O46 were sequenced (Illumina technology) to determine their respective gene content and comparative transcriptomic and proteomic analyses were carried out on both strains grown in conditions mimicking mastitis context. High differences were highlighted in mobile genetic elements, iron acquisition and metabolism, transcriptional regulation and exoprotein production. In particular, O11 overproduced exoproteins, including toxins and proteases when compared to O46. This was confirmed in 4 other S. aureus strains isolated from subclinical or clinical mastitis cases. Dose-dependant production of some staphylococcal factors seem to play a role in hypervirulence of strains isolated from severe mastitis. Mobile genetic elements, transcriptional regulators, exoproteins or strain ability to deal with iron starvation constitute good targets for further research to better define the underlying mechanisms of mastitis severity. Conclusions: Differences observed in mastitis severity likely result from the ability of the strains to adapt and to express virulence factors in the mastitis context rather than from deep variations in gene content.

Project description:The regulatory effects of H3K27me3 on target genes expressions were analyzed by comparing S. aureus mastitis resistant and susceptible cows. The differentially expressed genes are mainly associated with immune and disease-related processes, which were negatively regulated by H3K27me3 modification on the up 2Kb regions relative to TSS in S. aureus mastitis cattle.

Project description:The interactions between RNA and protein within cellular signaling pathways, known as the interactome, have modulatory effects on RNA binding proteins (RBP’s) effector functions, which contribute to post-transcriptional control of inflammatory cytokine release in the innate immune response. Post-translational modifications (PTMs) have a regulatory effect on a protein’s effector function. Thus, investigating the effect of RNA-protein interactions can answer questions central to our understanding of cellular signaling. Global RNA sequencing was used to investigate the differentially expressed (DE) genes from baseline following induction with LPS. Shotgun proteomics along with SILAC labeling was used to quantify relative abundance and differential protein expression in response to LPS. To assess the proteins interacting with RNA after LPS induction, total RNA associated protein purification was utilized. Using the tandem MS approach and methodology mentioned above, we were able to identify a list of candidate RNA binding proteins. Global RNA sequencing provided a baseline transcriptomic profile as well as quantification of DE genes across a stimulation time course (0, 30, 60 minutes). To investigate the discordance between the transcriptome and proteome, we performed miRNA sequencing at 0,30,60, and 120 minutes of LPS stimulation to assess expression changes in LPS induced miRNA’s which may regulate the transcriptome. We then handpicked potential RBPs of immunological interest (Il1a, MARCKS, and Acod1). Interestingly, Il1a, MARCKS, and Acod1 were all highly DE compared to baseline in the RNA Seq results and displayed a tendency to disassociate from RNA as the LPS time course pursued. Il1a, MARCKS, and Acod1 can all directly regulate pro-inflammatory gene expression in macrophages. These RBPs could offer a new regulatory mechanism to tune their effector function, which could lead to new therapeutic innovations for disease pathologies these proteins are implicated in. This research was supported by the Intramural Research Program of NIAID, NIH.

Project description:Analysis of gene expression changes in blood mononuclear cells (BMCs) that occur with Staph Aureus mastitis. We used in house microarrays to indicate the changes that occur in gene expression in the BMCs as a result of mastitis Keywords: Comparison mastitis animal vs control animal

Project description:Escherichia coli and Staphylococcus aureus are two common pathogenic microorganisms that cause mastitis in dairy cows. They can cause clinical mastitis and subclinical mastitis. In recent studies, lncRNAs have been found to play an important role in the immune responses triggered by microbial inducers. However, the actions of lncRNAs in bovine mastitis remain unclear. The purpose of this study was to explore the lncRNA profile on mastitis.

Project description:Analysis of gene expression changes in milk somatic cells (MSCs) that occur with Staph Aureus mastitis. We used in house microarrays to indicate the changes that occur in gene expression in the BMCs as a result of mastitis Keywords: single time point, comparison mastitis animal vs control animal