Project description:Comparison of gene expression between the virulent Rickettsia rickettsii R strain and avirulent Rickettsia rickettsii Iowa. Keywords: virulent vs avirulent Virulent Rickettsia rickettsii R strain in triplicate was compared to avirulent Rickettsia rickettsii Iowa in triplicate
Project description:Comparison of gene expression between the virulent Rickettsia rickettsii R strain and avirulent Rickettsia rickettsii Iowa. Keywords: virulent vs avirulent
Project description:Rickettsia spp. can cause mild to severe human disease. These intracellular bacteria are associated with arthropods, nematodes and trematodes, and usually, are efficiently transmitted transovarially to the progeny of the invertebrate host. We recently demonstrated foreign gene acquisition by lateral gene transfer in Rickettsia genomes. The unexpected presence of laterally transferred toxin-antitoxin (TA) genetic elements (including vapBC) in several Rickettsia genomes has not been connected with the pathogenic process or the host-bacteria relationship. We suspect that vapBC are selfish genetic elements that addict eukaryotic hosts to Rickettsia. We identified a statistical link between the transovarial transmission of Rickettsia in invertebrate hosts and the presence of TA operons, specifically vapBC, in the Rickettsia genome. These TA are neighboring to type IV secretion genes. Tunel assays and whole-genome expression of infected cells showed that antibiotic eradication of TA-containing Rickettsia from the host in cell culture initiates a proapoptotic program. Rickettsia VapC toxins inhibit the growth of transformed Escherichia coli and Saccharomyces cerevisiae. Rickettsia toxin presents in vitro RNase activity. Annexin-V staining and time-lapse video showed that intracytoplasmic injections of VapC toxins in cells cause apoptosis. These data demonstrate that host cells may develop a dependence on Rickettsia spp. expressing the vapBC operon. This would constitute a new evolutionary “mafia strategy” of intracellular bacteria based on host addiction.
Project description:Spotted Fever Group Rickettsiae (SFGR) can cause mild to fatal illness. The early interaction between the host and rickettsia in skin is largely unknown, and the pathogenesis of severe rickettsiosis remains an important topic. A surveillance of SFGR infection by PCR of blood and skin biopsies followed by sequencing, and immunohistochemical detection was performed on patients with a recent tick bite from 2013–2016. Humoral and cutaneous immune profiles were evaluated for different SFGR cases by serum cytokine and chemokine detection, skin immunohistochemical (IHC) staining, and transcriptome sequencing (RNA-seq). A total of 111 SFGR cases were identified, including 79 Candidatus Rickettsia tarasevichiae (CRT), 22 R. raoultii, 8 R. sibirica, and 2 R. heilongjiangensis. The sensitivity to detect SFGR in skin biopsies (9/24, 37.5 %) was significantly higher than in blood samples (105/2671, 3.9 %) (p<0.05). As early as one day after the tick bite, rickettsia could be detected in the skin. R. sibirica infection was more severe than CRT and R. raoultii. Increased levels of serum IL18, IP10, and MIG, and decreased IL2 in R. sibirica febrile patients were observed compared to CRT febrile infections. RNA-seq and IHC staining could not discriminate SFGR infected and uninfected tick-fed skin lesions. The type I interferon (IFN) response was differently expressed between R. sibirica and R. raoultii infection at the cutaneous interface. Severe rickettsiosis might be inclined to induce an increased type I IFN response on the infected skin but which were complicated by the bite of a tick eliciting immune cell infiltration.
Project description:Rickettsia spp. can cause mild to severe human disease. These intracellular bacteria are associated with arthropods, nematodes and trematodes, and usually, are efficiently transmitted transovarially to the progeny of the invertebrate host. We recently demonstrated foreign gene acquisition by lateral gene transfer in Rickettsia genomes. The unexpected presence of laterally transferred toxin-antitoxin (TA) genetic elements (including vapBC) in several Rickettsia genomes has not been connected with the pathogenic process or the host-bacteria relationship. We suspect that vapBC are selfish genetic elements that addict eukaryotic hosts to Rickettsia. We identified a statistical link between the transovarial transmission of Rickettsia in invertebrate hosts and the presence of TA operons, specifically vapBC, in the Rickettsia genome. These TA are neighboring to type IV secretion genes. Tunel assays and whole-genome expression of infected cells showed that antibiotic eradication of TA-containing Rickettsia from the host in cell culture initiates a proapoptotic program. Rickettsia VapC toxins inhibit the growth of transformed Escherichia coli and Saccharomyces cerevisiae. Rickettsia toxin presents in vitro RNase activity. Annexin-V staining and time-lapse video showed that intracytoplasmic injections of VapC toxins in cells cause apoptosis. These data demonstrate that host cells may develop a dependence on Rickettsia spp. expressing the vapBC operon. This would constitute a new evolutionary M-bM-^@M-^\mafia strategyM-bM-^@M-^] of intracellular bacteria based on host addiction. Fresh cells from the human microvascular endothelial cell line (HMEC-1) [26] were infected with R. felis California-2 strain in the presence and absence of antibiotics, at a rate of 5 bacteria per eukaryotic cell. Then, we added or not antibiotics (chloramphenicol 50 M-BM-5g/ml or doxycycline to 40 M-BM-5g/ml) in both experimental (R.felis-infected) and control, mock-infected cells for 6 hours. The cells were harvested and RNA was extracted using the RNeasy Mini Kit (Qiagen). DNA contamination was removed using the Turbo DNA-free Kit (Ambion). RNA were labeled using the Quick Amp Labeling Kit One-color (Agilent) and hybridized onto a Whole Human Genome Microarray, 4x44K (Agilent) as recommended by the manufacturer. Arrays were scanned with DNA Microarray Scanner (Agilent), and data were extracted using Feature Extractor (Agilent).
Project description:The green rice leafhopper Nephotettix cincticeps have two mutualistic symbiotic bacteria (Candidatus Sulcia muelleri and Candidatus Nasuia deltocephalinicola) in its symbiont special organ bacteriome and are also infected to rickettsia. In order to determine immune challenge is induced or not by rickettsia infection in N. cincticeps, we investigated gene expression between rickettsia-infected and rifampicin treated uninfected N. cincticeps colonies.
Project description:Proteomics profiling of the secretome of HUVEC cells infected with Rickettsia; Proteomics pprofiling of the plasma proteome of mice infected with Rickettsia.