Project description:Obtaining an in depth understanding of the arms races between peptides comprising the innate immune response and bacterial pathogens is of fundamental interest and will inform the development of new antibacterial therapeutics. Many cationic antimicrobial peptides (AMPs) share a range of structural and physical features that have been linked to antibacterial activity and yet they vary dramatically in their potency towards the same bacterial target. We hypothesised that a whole organism view of AMP challenge on Escherichia coli could provide a sophisticated, bacterial perspective enabling understanding of how potency is linked to mode of action. We used a 1H NMR metabolomic approach to characterise the effect on E. coli of challenge with four structurally and physically related AMPs: magainin 2, pleurocidin, buforin II and a designed peptide comprising D-amino acids only. Sub-inhibitory conditions, where these peptides nevertheless induced a bacterial response, were identified enabling electron microscopic and transcriptomic analyses. Although some common features of the bacterial response to AMP challenge could be identified, the metabolomes, morphological changes and the vast majority of the changes in gene expression were specific to each AMP. We show the antibacterial mode of action of AMPs can be accurately predicted by comparing ontological profiles generated by transcriptomic analyses. The response of E. coli to AMP challenge is highly plastic, with the bacteria capable of deploying a multifaceted response adapted to the mode of action rather than the physical properties of the AMP.

Project description:We have identified that these two organisms have quite distinct phospholipid structures - S. pombe phospholipids display canonical symmetric long acyl chains (18 and/ or 16 carbon atoms), and in S. japonicus significant fraction of phospholipids are asymmetrical  - one acyl chain is 18 carbon atoms and second one is short - only 10 carbon atoms. Medium chain fatty acid like C10:0 are critical for S. japonicus physiology and are synthesised by the cytosolic fatty acid synthase (FAS) complex.  Such findings lead us to address the functional role of these asymmetric lipids and we exchanged FAS between the two fission yeast species. We observed that in S. pombe expressing solely japonicus FAS, the membrane is functionally impaired in a  number of ways (e.g. endocytosis, mitosis etc etc) and moreover, it seems that at lower temperatures (such as 24C) the phenotype is more severe compared to the higher temperatures like 30 and 36. We believe that comparative transcriptomic analysis will shed light on what is going on in S. pombe cells with exchanged FAS and therefore displaying an altered lipidome.

Project description:Analysis of Staphylococcus aureus treated by CDCA. Staphylococcus aureus cells are evaluated with RNA-seq to understand the genes affected by this antibacterial agent. Our results provide new vision on the mode of action by CDCA.

Project description:Analysis of Staphylococcus aureus treated by Tanreqing. Staphylococcus aureus cells are evaluated with RNA-seq to understand the genes affected by this antibacterial agent. Our results provide new vision on the mode of action by Tanreqing.

Project description:Analysis of Pseudomonas aeruginosa PAO1 (ATCC 15692) treated by Tanreqing. PAO1 cells are evaluated with RNA-seq to understand the genes affected by this antibacterial agent. Our results provide new vision on the mode of action by Tanreqing.

Project description:Antibacterial mode of action of alpha-mangostin on Staphylococcus epidermidis

Project description:v-ATPase Vo and V1 domains were isolated via Co-IP from MEFs expressing HA-Atp6V1B2 and FLAG-Atp6VoaA3 using HA- and FLAG-tag antibodies. Treatment groups were full medium (control), amino acid starvation (60 min) and restimulation (30 min). Cells were grown in SILAC medium for 3 passages.

Project description:IL-17 receptor plays a major role in the antibacterial defense and regulation of host-microbiota interaction. However its impact on Paneth cells, cell-type specific for production of antibacterial peptides, is still not clear. Here, we used genetic depletion of IL-17 receptor specific for Paneth cell population (Defa6-iCre x Il17ra-flox) and performed the RNA sequencing on FACS-sorted Paneth cells and also complete ileum tissue, comparing Cre+ and Cre- littermates.

Project description:Alpha-mangostin (α-MG) is a natural xanthone reported to exhibit rapid bactericidal activity against Gram-positive bacteria, and may therefore have potential clinical application in healthcare sectors. This study sought to identify the antibacterial mode of action of α-MG against Staphylococcus epidermidis RP62A through RNA-sequencing technology.

Project description:Initial attachment to a surface marks the onset of a bacterial life style switch from planktonic to biofilm mode of growth. Among dissimilatory iron reducing bacteria, S. oneidensis MR-1 is notable due to its extensive respiratory versatility. It has been hypothesized that direct interaction of Shewanella cells with, or close proximity to, an appropriate surface facilitates the deposition of electrons. In fact, Shewanella species have been demonstrated to adhere to various surfaces and form biofilms. Global transcriptome profiling was performed on cells in the transition to surface-associated growth using different surfaces and conditions to understand molecular mechanisms underlying the initiation of microbe-surface interactions and the switch from planktonic to sessile life style.