Project description:We report transcriptome sequencing analysis on A. baumannii strain ATCC 17978 cultures treated with or without meropnem at 0.5, 3 and 9 h, in triplicate.

Project description:Carbapenem-resistant Acinetobacter baumannii (CRAB) is a recognized nosocomial pathogen with limited therapeutics options. Lactic acid bacteria (LAB) constitute a promising therapeutic alternative. Here we aimed to study the antibacterial properties of a collection of LAB strains using phenotypic and transcriptomic analysis against A. baumannii clinical strains. One strain, Lacticaseibacillus rhamnosus CRL 2244, exerts a strong inhibitory capacity on A. baumannii with a strong killing activity. Scanning electron microscopy images showed changes in the morphology of A. baumannii with an increase formation of outer membrane vesicles. Significant changes in the expression levels a wide variety of genes were observed. Interestingly, most of the modified genes were involved in metabolic pathway known to be associated with bacterial survival. The paa operon, Hut system, and fatty acid degradation were some of the pathways that have been induced. The data reveals the impact of Lcb. rhamnosus CRL 2244 on A. baumannii response, resulting in bacterial stress and subsequent cell death. These findings highlight the antibacterial properties of Lcb. rhamnosus CRL 2244 and its potential as an alternative or complementary strategy for treating infections. Further exploration and development of this LAB as a treatment option could provide valuable alternatives for combating CRAB infections.

Project description:AMR surveillance of Neisseria gonorrhoeae in Vietnam

Project description:BackgroundWith an increase in the use of colistin methansulfonate (CMS) to treat carbapenem-resistant Acinetobacter baumannii infections, colistin resistance is emerging.MethodsPatients with infection or colonization due to colistin-resistant A. baumannii were identified at a hospital system in Pennsylvania. Clinical data were collected from electronic medical records. Susceptibility testing, pulsed-field gel electrophoresis (PFGE), and multilocus sequence typing (MLST) were performed. To investigate the mechanism of colistin resistance, lipid A was subjected to matrix-assisted laser desorption/ionization mass spectrometry.ResultsTwenty patients with colistin-resistant A. baumannii were identified. Ventilator-associated pneumonia was the most common type of infection. Nineteen patients had received intravenous and/or inhaled CMS for treatment of carbapenem-resistant, colistin-susceptible A. baumannii infection prior to identification of colistin-resistant isolates. The 30-day all-cause mortality rate was 30%. The treatment regimen for colistin-resistant A. baumannii infection associated with the lowest mortality rate was a combination of CMS, a carbapenem, and ampicillin-sulbactam. The colistin-susceptible and -resistant isolates from the same patients were highly related by PFGE, but isolates from different patients were not, suggesting evolution of resistance during CMS therapy. By MLST, all isolates belonged to the international clone II, the lineage that is epidemic worldwide. Phosphoethanolamine modification of lipid A was present in all colistin-resistant A. baumannii isolates.ConclusionsColistin-resistant A. baumannii occurred almost exclusively among patients who had received CMS for treatment of carbapenem-resistant, colistin-susceptible A. baumannii infection. Lipid A modification by the addition of phosphoethanolamine accounted for colistin resistance. Susceptibility testing for colistin should be considered for A. baumannii identified from CMS-experienced patients.

Project description:Comparative Genomic and Transcriptomic Characterization of Colistin-Resistant Acinetobacter baumannii

Project description:Molecular epidemiology of carbapenem-resistant Acinetobacter baumannii

Project description:Objectives: Carbapenem-resistant Acinetobacter baumannii (CRAB) are one of the most difficult pathogen to treat. The only drug recently approved by the FDA that is active against CRAB is cefiderocol. However, recent studies have shown higher all-cause mortality rate in the group of patients treated with cefiderocol, that may be due to heteroresistance, a phenotype characterized by the survival of a small proportion of cells in a population seemingly isogenic. Previous studies showed that adding human fluids to CRAB cultures can lead to CFDC heteroresistance. To better understand the nature of this phenomenon, we carried out molecular and phenotypic analyses of CRAB heteroresistant bacterial subpopulations. Methods: The CRAB strain AMA40 was cultured in the presence of cefiderocol and human pleural fluid (HPF) to isolate heteroresistant variants. Two of them, AMA40 IHC_1 and IHC_2, were subjected to whole genome sequencing and transcriptomic analysis to identify the mutations and transcriptomic changes responsible for the development of cefiderocol resistance. The impact of mutations on the pharmacodynamic activity of cefiderocol was assessed by susceptibility testing, EDTA and Boronic acid inhibition analysis, biofilm formation, and static time-kill assays. Results: Variants AMA40 IHC_1 and IHC_2 had 53 mutations, forty of which were common to both heteroresistant strains. None of the mutations are located inside genes associated with iron-uptake systems or β-lactam resistance. However, pipA, a gene associated with iron homeostasis in other species, was mutated in heteroresistant strains. Transcriptomic analyses revealed modifications in levels of expression of genes associated with antibiotic resistance. The blaNDM-1, blaADC-2, pbp3, and pbp1 were expressed at higher levels. At the same time, the carO and ompA genes’ expression was reduced. Collateral resistance to amikacin was observed in the heteroresistant variants. Static time-kill assays showed that when CA-MHB was supplemented with human serum albumin, the main protein component of HPF, cefiderocol killing activity was considerably reduced in all three strains.  Conclusions: We conclude that heteroresistance to cefiderocol in CRAB, when exposed to fluids containing high HSA, is caused by mutations and modifications in the expression of genes associated with resistance to β-lactams.

Project description:Vietnam Shigella

Project description:Carbapenem-resistant Acinetobacter baumannii (CRAB) is a Priority 1 (Critical) pathogen urgently requiring new antibiotics. Polymyxins are a last-line option against CRAB-associated infections. This transcriptomic study utilized a CRAB strain to investigate mechanisms of bacterial killing with polymyxin B, colistin, colistin B and colistin/sulbactam combination therapy. After 4 h of 2 mg/L polymyxin monotherapy, all polymyxins exhibited common modes of action which primarily involved disruption to amino acid and fatty acid metabolism. Of the three monotherapies, polymyxin B induced the greatest number of differentially expressed genes (DEGs), including for genes involved with fatty acid metabolism. Gene disturbances with colistin and colistin B were highly similar (89% common genes for colistin B), though effects on gene expression were generally lower (0-1.5-fold in most cases) with colistin B. Colistin alone (2 mg/L) or combined with sulbactam (64 mg/L) resulted in rapid membrane disruption as early as 1 h. Transcriptomic analysis of this combination revealed the effects were driven by colistin and included disturbances in fatty acid synthesis and catabolism and inhibition of nutrient uptake. Combination therapy produced substantially higher fold changes in 72% of DEGs shared with monotherapy, resulting in substantially greater reductions in fatty acid biosynthesis and increases in biofilm, cell wall and phospholipid synthesis. This indicates synergistic bacterial killing with the colistin/sulbactam combination results from a systematic increase in perturbation of many genes associated with bacterial metabolism. These mechanistic insights enhance our understanding of bacterial responses to polymyxin mono- and combination therapy and will assist to optimize polymyxin use in patients. Carbapenem-resistant Acinetobacter baumannii (CRAB) is a Priority 1 (Critical) pathogen urgently requiring new antibiotics. Polymyxins are a last-line option against CRAB-associated infections. This transcriptomic study utilized a CRAB strain to investigate mechanisms of bacterial killing with polymyxin B, colistin, colistin B and colistin/sulbactam combination therapy. After 4 h of 2 mg/L polymyxin monotherapy, all polymyxins exhibited common modes of action which primarily involved disruption to amino acid and fatty acid metabolism. Of the three monotherapies, polymyxin B induced the greatest number of differentially expressed genes (DEGs), including for genes involved with fatty acid metabolism. Gene disturbances with colistin and colistin B were highly similar (89% common genes for colistin B), though effects on gene expression were generally lower (0-1.5-fold in most cases) with colistin B. Colistin alone (2 mg/L) or combined with sulbactam (64 mg/L) resulted in rapid membrane disruption as early as 1 h. Transcriptomic analysis of this combination revealed the effects were driven by colistin and included disturbances in fatty acid synthesis and catabolism and inhibition of nutrient uptake. Combination therapy produced substantially higher fold changes in 72% of DEGs shared with monotherapy, resulting in substantially greater reductions in fatty acid biosynthesis and increases in biofilm, cell wall and phospholipid synthesis. This indicates synergistic bacterial killing with the colistin/sulbactam combination results from a systematic increase in perturbation of many genes associated with bacterial metabolism. These mechanistic insights enhance our understanding of bacterial responses to polymyxin mono- and combination therapy and will assist to optimize polymyxin use in patients.

Project description:We report the transcriptional expression from wild type, a ponA mutant, and lipooligosaccharide-deficient A. baumannii in order to understand the cellular changes after inactivation of lipid A biosynthesis. Among all strains, genes in the Localization Of Lipoprotein (Lol) transport pathway were upregulated. This study provides a framework to understand how some Acinetobacter baumannii strains can survive without lipid A and lipopolysaccharide/lipooligosaccharide.