Project description:Antimicrobial resistance (AMR) is one of the major challenges that humans are facing this century. Understanding the mechanisms behind the rise of AMR is crucial to tackle this global threat. Among the triggers of phenotypic antimicrobial resistance, the contribution of transition metals has been understudied in Mycobacterium abscessus (Mabs), a fast-growing non-tuberculous mycobacterium known for its extreme AMR levels. Deeper understanding of the effects of transition metal ions will be beneficial for our knowledge in AMR and the discovery of potential therapeutic targets. Here, we investigated the impact of transition metal ions, nickel, cobalt and copper on the physiology and drug susceptibility of Mabs.

Project description:The response of human neutrophils to the emerging pathogen Mycobacterium abscessus has not been described. However, M. abscessus infections are frequently associated with neutrophil-rich abscesses. To better understand the reponse of neutrophils to M. abscessus we performed gene expression analysis using Affymetrix HG-U133A Plus 2.0 microarrays. Human neutrophils from healthy donors were stimulated with isogenic rough and smooth morphotypes of M. abscessus. Staphylococcus aureus was used as a control. Gene expression was compared to neutrophils left unstimulated. Neutrophils from four individual donors were isolated on separate days and stimulated with freshly prepared bacteria. Neutrophils (stimulated and control) were left for 2 hours before total RNA was isolated, and biotinylated cRNA was prepared by standard methods. Analysis indicates that M. abscessus morphotypes induce a limited number of genes, when compared to S. aureus, which are enriched in genes for cytokines and chemokines, including neutrophil-specific chemokines. These data suggest that neutrophils have a limited response to M. abscessus, which may contribute to neutrophil-rich abscess formation.!Series_overall_design = Human neutrophils from healthy donors were exposed to rough Mab (ATCC 19977T), smooth Mab (ATCC 19977T) and S. aureus (CF clinical strain) for two hours; control cells were exposed to saline.

Project description:Mice were challneged with Mycobacterium abscessus cell wall particles intra- tracheally or saline. Lung was harvested after 3 weeks. RNA extracted from lungs and RNASeq was performed to identify differentially expressed genes.

Project description:Human macrophages are a natural host of many mycobacterium species, including Mycobacterium abscessus (M. abscessus), an emerging pathogen affecting patients with lung diseases and immunocompromised individuals. There are few available treatments and the search for effective antibiotics against M. abscessus has been hindered by the lack of a tractable in vitro intracellular model of infection. Here, we established a reliable model for M. abscessus infection using human pluripotent stem cell-derived macrophages (hPSC-macrophages). hPSC differentiation permitted a reproducible generation of functional human macrophages that were highly susceptible to M. abscessus infection. Electron microscopy demonstrated that M. abscessus was present in the vacuoles of hPSC-macrophages. RNA-sequencing analysis revealed a time dependent host cell response to M. abscessus, with differing gene and protein expression patterns observed at 3-hours, 24-hours and 48-hours post-infection. Culture of engineered tdTOMATO-expressing hPSC-macrophages with GFP-expressing M. abscessus enabled rapid and image-based high-throughput analysis of intracellular infection and quantitative assessment of antibiotic resistance and efficacy. Our study describes the first hPSC-based model for M. abscessus infection, which represents a novel platform for studying M. abscessus-host interaction and an accessible tool for drug discovery.

Project description:Bronchial Epithelial cells were exposed to microparticles generated from mycobacterium abscessus MAB cell wall per an in-house protocol. Control group was exposed to saline. Differentially expressed genes related to MAB cell wall particles were determined.

Project description:Lysine acetylome of Mycobacterium abscessus GZ002.

Project description:7 transition metals (silver, arsenic, cadmium, chromium, copper, mercury and zinc) were treated (2hr) on diploid yeast BY4743. Keywords: Response to metals

Project description:RNA sequencing (RNA-seq) of Mycobacterium abscessus in four infection-relevant culture conditions: hypoxic stress, artificial sputum medium, kanamycin-treated medium, and erythromycin-treated medium. Triplicate cultures of M. abscessus were grown in (1) Artificial Sputum media, (2) hypoxic conditions, (3) the presence of kanamycin, and (4) the presence of erythromycin. Triplicate controls were prepared for sample (1) and samples (2-4).

Project description:RNA sequencing (RNA-seq) of Mycobacterium abscessus in four infection-relevant culture conditions: hypoxic stress, artificial sputum medium, kanamycin-treated medium, and erythromycin-treated medium.

Project description:Generation and analysis of human macrophages from induced pluripotent stem cells were infected by Mycobacterium abscessus to examine susceptibility and transcriptomic response