Project description:Q fever, a zoonosis due to Coxiella burnetii infection, exhibits sexual dimorphism; men are affected more frequently and severely than women for a given exposure. Here we explore whether the severity of C. burnetii infection in mice is related to differences in male and female gene expression profiles. Mice were infected with C. burnetii for 24 hours, and gene expression was measured in liver cells using microarrays. Multiclass analysis identified 2,777 probes for which expression was specifically modulated by C. burnetti infection. Only 14% of the modulated genes were sex-independent, and the remaining 86% were differentially expressed in males and females. Castration of males and females showed that sex hormones were responsible for more than 60% of the observed gene modulation, and this reduction was most pronounced in males. Using functional annotation of modulated genes, we identified four clusters enriched in males that were related to cell-cell adhesion, signal transduction, defensins and cytokine/Jak-Stat pathways. Up-regulation of the IL-10 and Stat-3 genes may account for the high susceptibility of men with Q fever to C. burnetii infection and autoantibody production. Two clusters were identified in females, including the circadian rhythm pathway, which consists of positive (Clock, Arntl) and negative (Per) limbs of a feedback loop. We found that Clock and Arntl were down-modulated whereas Per was up-regulated; these changes may be associated with efficient bacterial elimination in females but not in males, in which an exacerbated host response would be prominent. This large-scale study revealed for the first time that circadian rhythm plays a major role in the anti-infectious response of mice, and it provides a new basis for elucidating the role of sexual dimorphism in human infections. Liver transcriptome was analyzed using whole genome microarray. Forty mice were divided into 8 groups of five mice upon three binary factors: sex, infection and castration. Four Samples were excluded from final analysis (see Data Processing for additional details).

Project description:Coxiella burnetii, the agent causing Q fever, has been associated with B-cell non-Hodgkin lymphoma (NHL). To better clarify this link, we analysed the genetic transcriptomic profile of peripheral blood leukocytes from patients with C. burnetii infection to identify possible links to lymphoma. Microarray analyses revealed that 1189 genes were expressed differently (p <.001 and fold change ≥4) in whole blood of patients with C. burnetii infection compared to controls. In addition, 95 genes expressed in patients with non-Hodgkin lymphoma (NHL) and in patients with C. burnetii persistent infection have allowed us to establish the ‘C. burnetii-associated NHL signature’. Among these, 33 genes previously found modulated in C. burnetii-associated -NHL by the microarray analysis were selected and their mRNA expression levels were measured in distinct C. burnetii-induced pathologies, namely, acute Q fever, focalized persistent infection, lymphadenitis and C.burnetii-associated NHL. Specific genes involved in anti-apoptotic process were found highly expressed in leukocytes from patients with C. burnetii associated-NHL: MIR17HG, REL and SP100. This signature differed from that found for NHL-control group. Patients with C. burnetii lymphadenitis presented significant elevated levels of BCL2 and ETS1 mRNAs. Altogether, we identified a specific transcriptionnal signature for NHL during C. burnetii infection reflecting the up-regulation of anti-apoptotic processes and the fact that lymphadenitis might constitute a critical step towards lymphomagenesis.

Project description:Background: Q fever is caused by the Coxiella burnetii, an intracellular bacterium that infects mononuclear cells. In some individuals, it causes a persistent cardiovascular infection (chronic Q fever). The aim of present study was to investigate the C. burnetii-induced IFN-γ response in chronic Q fever patients. Methods: IFN-γ was measured in supernatants of C. burnetii-stimulated peripheral blood mononuclear cells (PBMCs) of patients. Gene-expression profiles of the IFN-γ pathway in PBMCs after incubation with C. burnetii were compared between chronic Q fever patients and control individuals. Results: IFN-γ production by PBMCs of chronic Q fever patients incubated with C. burnetii in vitro, was significantly higher compared to controls. In transcriptome analysis, genes downstream of IFN-γ were strongly upregulated in patients. Conclusion: Present study showed that IFN-γ production and the response to IFN-γ seems to be intact in chronic Q fever patients.

Project description:Background: Q fever is caused by the Coxiella burnetii, an intracellular bacterium that infects mononuclear cells. In some individuals, it causes a persistent cardiovascular infection (chronic Q fever). The aim of present study was to investigate the C. burnetii-induced IFN-γ response in chronic Q fever patients. Methods: IFN-γ was measured in supernatants of C. burnetii-stimulated peripheral blood mononuclear cells (PBMCs) of patients. Gene-expression profiles of the IFN-γ pathway in PBMCs after incubation with C. burnetii were compared between chronic Q fever patients and control individuals. Results: IFN-γ production by PBMCs of chronic Q fever patients incubated with C. burnetii in vitro, was significantly higher compared to controls. In transcriptome analysis, genes downstream of IFN-γ were strongly upregulated in patients. Conclusion: Present study showed that IFN-γ production and the response to IFN-γ seems to be intact in chronic Q fever patients. PBMC were purified from Q fever patients (n=6) or healthy volunteers (n=4), and then stimulated by Coxiella burnetii, LPS or left untreated (NS)

Project description:The formation of granulomas is associated with the resolution of Q fever, a zoonosis due to Coxiella burnetii; however the molecular mechanisms of granuloma formation remain poorly understood. We generated human granulomas with peripheral blood mononuclear cells and beads coated with C. burnetii, using BCG extracts as controls. A microarray analysis showed dramatic changes in gene expression in granuloma cells compared with peripheral blood mononuclear cells. About 60% of modulated genes were common to C. burnetii and BCG granulomas including M1-related genes. C. burnetii granulomas also expressed a specific transcriptional profile that was essentially enriched in genes associated with type I interferon response (IFI44, IFI44L, IFI6, OAS1, OAS2, OAS3, ISG15, IFIT1, IFITM2, IFITM3, MX1 and MX2). Real-time RT-PCR confirmed that C. burnetii especially increased the expression of interferon-stimulated genes in granulomas generated from controls or Q fever patients. Our results showed that granuloma formation is associated with a core of transcriptional response, but that the granulomatous response to C. burnetii is characterized by the activation of type I interferon-related genes, conferring a new role for type I interferon response in the control of C. burnetii infection.

Project description:The formation of granulomas is associated with the resolution of Q fever, a zoonosis due to Coxiella burnetii; however the molecular mechanisms of granuloma formation remain poorly understood. We generated human granulomas with peripheral blood mononuclear cells and beads coated with C. burnetii, using BCG extracts as controls. A microarray analysis showed dramatic changes in gene expression in granuloma cells compared with peripheral blood mononuclear cells. About 60% of modulated genes were common to C. burnetii and BCG granulomas including M1-related genes. C. burnetii granulomas also expressed a specific transcriptional profile that was essentially enriched in genes associated with type I interferon response (IFI44, IFI44L, IFI6, OAS1, OAS2, OAS3, ISG15, IFIT1, IFITM2, IFITM3, MX1 and MX2). Real-time RT-PCR confirmed that C. burnetii especially increased the expression of interferon-stimulated genes in granulomas generated from controls or Q fever patients. Our results showed that granuloma formation is associated with a core of transcriptional response, but that the granulomatous response to C. burnetii is characterized by the activation of type I interferon-related genes, conferring a new role for type I interferon response in the control of C. burnetii infection. Human Peripheral Blood Mononuclear Cells (PBMC) were co-cultured with beads coated with Mycobacterium bovis strain Bacille Calmette Guerin (BCG) extracts or Coxiella burnetii (C.burnetii) extracts for 8 days and PBMC at day 0 were used as controls. For each condition ( unstimulated, BCG and C.burnetii), each microarray is a replicate of the same biological sample.

Project description:Coxiella burnetii, the agent of Q fever, persists in humans despite specific immune responses: however, its reservoir remains unknown. We detected C. burnetii in adipose tissue from BALB/c and C57/BL6 mice 4 months after infection when no bacteria were found in other tissues. C. burnetii infected cultivated adipocytes, replicated within late phagosomes and induced a transcriptional program that was enriched for the expression of genes associated with inflammatory response, hormonal responses and cytoskeleton.

Project description:Coxiella burnetii, the agent of Q fever, persists in humans despite specific immune responses: however, its reservoir remains unknown. We detected C. burnetii in adipose tissue from BALB/c and C57/BL6 mice 4 months after infection when no bacteria were found in other tissues. C. burnetii infected cultivated adipocytes, replicated within late phagosomes and induced a transcriptional program that was enriched for the expression of genes associated with inflammatory response, hormonal responses and cytoskeleton. 3T3-L1 (ATCC) differentiated adipocytes were stimulated or not with Coxiella burnetii (NMI) at a ratio of 50 bacteria per cell. Four biological replicates were analyzed in each group. Due to technical reason, one unstimulated sample was discarded from the analysis.

Project description:Q fever is a zoonosis caused by Coxiella burnetii, an obligate intracellular bacterium usually found in myeloid cells. The infection is a source of severe obstetrical complications in humans and cattle, and of chronic evolution in pregnant women. As C. burnetii is found in the placenta of aborted foetuses in humans and ruminants, we wondered if it may infect trophoblasts. In this work, we showed that C. burnetii, infected JEG trophoblastic cells without replication and was localized within phagolysosomes. We analyzed gene expression programs induced by C. burnetii in JEG trophoblastic cell line and compared it with transcriptomic program of BeWo trophoblasts in which C. burnetii replicates. These transcriptomic programs induced by C. burnetii in JEG trophoblasts was poor and markedly different from that induced by C. burnetii in BeWo trophoblasts. Hence, the differences in transcriptomic programs may explain the different intracellular fate of C. burnetii in JEG and BeWo cells. Our results suggest that C. burnetii may use trophoblastic cells as a reservoir by interfering with gene expression.

Project description:Men are at an increased risk of dying from heart failure caused by inflammatory heart diseases such as atherosclerosis, myocarditis and dilated cardiomyopathy (DCM). We previously showed that immune responses in the heart are phenotypically distinct in male compared to female mice 10 days after infection resulting in severe DCM in males. Groups consisted of Infected Males, Infected Females, Uninfected Males and Uninfected females. There are 3 mice per group. A total of 12 samples were analyzed in this experiment (12 for 10 dpi and 12 for 90 dpi).