Project description:Wolbachia, an endosymbiotic bacterium, is being investigated as a vector control agent in several insect species. Along with the well known classical reproductive parasitism Wolbachia employs against its host to spread within the population, it is emerging that the bacteria can protect the host against pathogens and reduced pathogen transmission. Anopheles mosquitoes, which transmit malaria, have never been found to harbour Wolbachia in nature, and despite numerous transinfection attempts, no stable line has been developed. However recently, two strains of Wolbachia, wAlbB from Aedes albopictus, and wRi from Drosophila simulans were cultured in Anopheles gambiae Sua5B cells. These cell lines provides an amenable system to study Wolbachia-Anopheles interaction in the absence of a stable transinfected line. It has been proposed that the compromised vector competence of Wolbachia infected insects is due to an up regulation of the basal immune state. We therefore completed a genome wide expression profile of Wolbachia infected Anopheles, assessing both wAlbB and wRi infected cells in parallel against uninfected Sua5B cells.

Project description:Certain strains of the intracellular endosymbiont Wolbachia can strongly inhibit or block the transmission of viruses such as dengue by Aedes mosquitoes, and the mechanisms responsible are still not well understood. Direct infusion and liquid chromatography FT-ICR mass spectrometry based lipidomicse DIMS and LCMS analyses were conducted using Aedes albopictus Aa23 cells that were infected with the wMel and wMelPop strains of Wolbachia compared to uninfected cells. Substantial shifts in the cellular lipid profile were apparent in the presence of Wolbachia. Most significantly, sphingolipids were depleted across all classes, and some reduction in diacylglyerol fatty acids and phosphatidylcholines was also observed. These lipid classes have previously been shown to be selectively enriched in DENV-infected mosquito cells, suggesting that Wolbachia may produce a cellular lipid environment that is antagonistic to viral replication. The data improve understanding of the intracellular interactions between Wolbachia and mosquitoes.

Project description:We characterized the miRNA composition of the nucleus and the cytoplasm of uninfected cells and compared it with the one of cells infected with the endosymbiotic bacterium Wolbachia strain wMelPop-CLA. We found an overall increase of small RNAs between 18 and 28 nucleotides in both cellular compartments in Wolbachia-infected cells and identified specific miRNAs induced and/or suppressed by the Wolbachia infection. We discuss the mechanisms that the cell may use to shuttle miRNAs between the cytoplasm and the nucleus. In addition, we identified piRNAs that changed their abundance in response to Wolbachia infection. The miRNAs and piRNAs identified in this study provide promising leads for investigations into the host-endosymbiont interactions and for better understanding of how Wolbachia manipulates the host miRNA machinery in order to facilitate its persistent replication in infected cells. Examination of small RNA profile in cytoplasmic and nuclear fractions of Aag 2 and Pop cells (Aedes aegypti)

Project description:Microarray analysis of Wolbachia infected Anopheles gambiae Sua5B cells

Project description:Malaria infection renders humans more attractive to Anopheles gambiae sensu lato mosquitoes than uninfected people. The mechanisms remain unknown. Here, we show that an isoprenoid precursor produced by Plasmodium falciparum, (E)-4-hydroxy-3-methyl-but-2-enyl pyrophosphate (HMBPP), affects A. gambiae s.l. blood meal seeking and feeding behaviors, as well as susceptibility to infection. HMBPP acts indirectly by triggering human red blood cells to increase the release of CO2, aldehydes, and monoterpenes, which together enhance vector attraction, and stimulate vector feeding. When offered in a blood meal, HMBPP modulates neural, antimalarial, and oogenic gene transcription without affecting mosquito survival or fecundity, while in a P. falciparum infected blood meal, sporogony is increased.

Project description:We characterized the miRNA composition of the nucleus and the cytoplasm of uninfected cells and compared it with the one of cells infected with the endosymbiotic bacterium Wolbachia strain wMelPop-CLA. We found an overall increase of small RNAs between 18 and 28 nucleotides in both cellular compartments in Wolbachia-infected cells and identified specific miRNAs induced and/or suppressed by the Wolbachia infection. We discuss the mechanisms that the cell may use to shuttle miRNAs between the cytoplasm and the nucleus. In addition, we identified piRNAs that changed their abundance in response to Wolbachia infection. The miRNAs and piRNAs identified in this study provide promising leads for investigations into the host-endosymbiont interactions and for better understanding of how Wolbachia manipulates the host miRNA machinery in order to facilitate its persistent replication in infected cells.

Project description:The transcriptional profile of four tissues for the multi insecticide Anopheles gambiae (Tiassale) and lab susceptible Anopheles gambiae strain N'Gousso. The malpighian tubules, abodmen integument (containing the fat body epidermal, neuronal, muscle and oenocyte cells), midgut and remaining structures were dissected and compared two ways: (i) each body part against the corresponding whole organism (ii) resistant against corresponding susceptible body parts.

Project description:Transcriptional profiling of Drosophila melanogaster larval testes with and without the wMel strain of Wolbachia and found that 296 genes had at least a 1.5 fold change [q-value (%)<5%] in transcript levels, with 167 genes up-regulated and 129 genes down-regulated when comparing Wolbachia-infected flies to uninfected ones. Differential expression of genes related to metabolism, immunity, reproduction and other functions were observed. Two-condition experiment, Wolbachia-infected vs. Wolbachia-uninfected testes. Biological replicates: 3 control, 3 infected, independently grown and dissected. One replicate per array.

Project description:The study provides a comparative of transcript levels in uninfected and CHIKV-infected Aedes aegypti derived Aag2 cells using RNA Seq

Project description:Wolbachia endosymbionts are widespread intracellular, maternally inherited bacteria which manipulate the host to favour their spread through a population. Cytoplasmic incompatibility (CI) and viral suppression are two such manipulations driven by uncharacterised mechanisms. To gain insight into potential molecular mechanisms responsible for these effects, we performed the first in-depth proteomic characterisation of the host response to Wolbachia infection. We find that the presence of the Wolbachia wMelPop in Aedes aegypti mosquito cells alters levels of proteins involved in cell cycle control, DNA replication, autophagy, vesicular trafficking, iron homeostasis, amino acid degradation, purine metabolism, lipid metabolism and immunity. The majority of the cell cycle/DNA replication proteins were downregulated in the presence of Wolbachia, in particular, a member of the anoctamin family was strongly down regulated which may be related to the chromosomal segregation defects observed in CI crosses. We found clear evidence for perturbed lipid metabolism, Wolbachia infected cells expressed higher levels of Apolipoprotein D and the cholesterol efflux transporter ABCA1, while the LDL receptor and fatty acid synthase were downregulated. ABCA1 was also upregulated at the mRNA level in adult Wolbachia infected Aedes aegypti mosquitoes. Wolbachia therefore perturbs cholesterol homeostasis causing the host cell to respond to an apparent cholesterol excess which may contribute to viral inhibition.