Opportunistic infections caused by Pseudomonas aeruginosa can be acute or chronic. While acute infections often spread rapidly and can cause tissue damage and sepsis with high mortality rates, chronic infections can persist for weeks, months, or years in the face of intensive clinical intervention. Remarkably, this diverse infectious capability is not accompanied by extensive variation in genomic content, suggesting that the genetic capacity to be an acute or a chronic pathogen is present in most P. aeruginosa strains. To investigate the genetic requirements for acute and chronic pathogenesis in P. aeruginosa infections, we combined high-throughput sequencing-mediated transcriptome profiling (RNA-seq) and genome-wide insertion mutant fitness profiling (Tn-seq) to characterize gene expression and fitness determinants in murine models of burn and non-diabetic chronic wound infection. Generally we discovered that expression of a gene in vivo is not correlated with its importance for fitness, with the exception of metabolic genes. By combining metabolic models generated from in vivo gene expression data with mutant fitness profiles, we determined the nutritional requirements for colonization and persistence in these infections. Specifically, we found that long-chain fatty acids represent a major carbon source in both chronic and acute wounds, and P. aeruginosa must biosynthesize purines, several amino acids, and most cofactors during infection. In addition, we determined that P. aeruginosa requires chemotactic flagellar motility for fitness and virulence in acute burn wound infections, but not in non-diabetic chronic wound infections. Our results provide novel insight into the genetic requirements for acute and chronic P. aeruginosa wound infections and demonstrate the power of using both gene expression and fitness profiling for probing bacterial virulence. Author Summary Soft tissue infections, such as those in burns, bed sores, and diabetic ulcers, are a significant healthcare and economic burden in the developed and developing world. The opportunistic pathogen P. aeruginosa can cause both acute and chronic infections, and the trajectory of these two types of infections is vastly different. We used high-throughput sequencing to profile P. aeruginosa genome-wide gene expression and mutant fitness during mouse model acute and non-diabetic chronic wound infections. Using these data, we show that wounds are nutrient-rich growth environments in which long-chain fatty acids are a primary source of carbon and energy. We also show that the ability to travel along spatio-chemical gradients by chemotaxis is critical for bacterial fitness and virulence in acute but not chronic infections. Our results demonstrate the utility of simultaneous mutant fitness and gene expression profiling to discover critical functions in complex growth environments.
【초록키워드】 Transcriptome, Pathogenesis, Gene Expression, Variation, Sequencing, Genetic, Infection, Sepsis, Intervention, Spread, RNA-Seq, infections, pathogen, persistence, acute infection, healthcare, Travel, amino acids, High-throughput sequencing, trajectory, murine model, Gene expression profiling, fitness, mutant, in vivo, utility, virulence, genomic, expression, Strains, Intensive, Critical, function, Fatty acid, opportunistic Infections, Bacterial, power, Pseudomonas aeruginosa, chronic infection, Burn, chronic, a major, opportunistic pathogen, fatty acids, cofactors, wound infections, diabetic ulcers, primary source, Soft tissue, burn wound, opportunistic infection, cofactor, nutritional requirements, determinant, energy, tissue damage, growth, These data, complex, profiles, high mortality, murine models, insertion, chemotaxis, purines, carbon, acute infections, P. aeruginosa, carbon source, colonization, metabolic genes, acute and chronic infections, acute and chronic P. aeruginosa wound infections, acute and non-diabetic chronic wound infections, acute burn wound infections, acute wounds, bed sores, burn wound infections, burns, chronic and acute wounds, chronic infections, chronic wound infections, non-diabetic chronic wound infection, non-diabetic chronic wound infections, P. aeruginosa wound infections, Soft tissue infections, Tn-seq, Wound Infection, while, caused, addition, accompanied, chemotactic, chronic wound, flagellar, not correlated, 【제목키워드】 Pseudomonas aeruginosa, Surgical Wound Infection, Requirement,