Roger S. Smith scite author profile

The opportunistic pathogen Pseudomonas aeruginosa causes a variety of acute and chronic infections. We identified a gene whose inactivation results in attenuation of virulence due to premature activation of genes involved in biofilm formation and coordinate repression of genes required for initial colonization. This gene, retS, encodes a hybrid sensor kinase/response regulator with an unconventional arrangement of functional domains. Genome-wide transcriptional profiling indicates that the retS gene is required for expression of the Type III secretion system and other virulence factors and for repression of genes responsible for exopolysaccharide components of the P. aeruginosa biofilm matrix. These disparate phenotypes are suppressed by transposon insertions in genes encoding the GacS/GacA/rsmZ signal transduction pathway, a highly conserved system involved in the control of diverse adaptive functions. This study defines RetS as a pleiotropic regulator of multiple virulence phenotypes that orchestrates genes required for acute infection and genes associated with chronic persistence.

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Dynamics of Pseudomonas aeruginosa genome evolution

Mathee¹,

Narasimhan

Valdes

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

453

582

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One of the hallmarks of the Gram-negative bacterium Pseudomonas aeruginosa is its ability to thrive in diverse environments that includes humans with a variety of debilitating diseases or immune deficiencies. Here we report the complete sequence and comparative analysis of the genomes of two representative P. aeruginosa strains isolated from cystic fibrosis (CF) patients whose genetic disorder predisposes them to infections by this pathogen. The comparison of the genomes of the two CF strains with those of other P. aeruginosa presents a picture of a mosaic genome, consisting of a conserved core component, interrupted in each strain by combinations of specific blocks of genes. These strain-specific segments of the genome are found in limited chromosomal locations, referred to as regions of genomic plasticity. The ability of P. aeruginosa to shape its genomic composition to favor survival in the widest range of environmental reservoirs, with corresponding enhancement of its metabolic capacity is supported by the identification of a genomic island in one of the sequenced CF isolates, encoding enzymes capable of degrading terpenoids produced by trees. This work suggests that niche adaptation is a major evolutionary force influencing the composition of bacterial genomes. Unlike genome reduction seen in host-adapted bacterial pathogens, the genetic capacity of P. aeruginosa is determined by the ability of individual strains to acquire or discard genomic segments, giving rise to strains with customized genomic repertoires. Consequently, this organism can survive in a wide range of environmental reservoirs that can serve as sources of the infecting organisms.

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P. aeruginosa quorum-sensing systems and virulence

Smith

2003

Current Opinion in Microbiology

620

457

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Cabozantinib in patients with advanced RET -rearranged non-small-cell lung cancer: an open-label, single-centre, phase 2, single-arm trial

Drilon

Rekhtman

Arcila

et al. 2016

The Lancet Oncology

387

298

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SUMMARY Background RET rearrangements are found in 1–2% of non-small cell lung cancers. Cabozantinib is a multikinase RET inhibitor that produced a 10% response rate in unselected patients with lung cancers. To evaluate the activity of cabozantinib in patients with RET-rearranged lung cancers, we conducted a prospective phase 2 trial in this molecular subgroup. Methods We enrolled patients in this open-label, Simon two-stage, phase 2 trial if they met the following criteria: metastatic or unresectable lung cancer harboring a RET rearrangement, Karnofsky performance status of >70%, and measurable disease. Cabozantinib was administered at 60 mg daily. The primary objective was to determine the overall response rate (RECIST v1·1). This analysis was performed in an intent to treat fashion in patients who received at least one dose of cabozantinib and underwent imaging performed at baseline and at least one protocol-specified follow up time point. The secondary objectives were to determine progression-free survival, overall survival, and toxicity. The accrual of RET-rearranged lung cancer patients to this protocol has been completed. This study was registered with ClinicalTrials.gov, number NCT01639508. Findings Twenty six patients with RET-rearranged lung adenocarcinomas were treated with cabozantinib. KIF5B-RET was the predominant fusion type identified in 16 (62%) patients. The study met its primary endpoint with confirmed partial responses observed in seven of 25 response-evaluable patients (overall response rate 28% [95% CI 12–49%]). The most common grade 3 treatment-related adverse events were asymptomatic lipase elevation in four patients (15%), increased alanine aminotransferase in two patients (8%), increased aspartate aminotransferase in two patients (8%), thrombocytopenia in two patients (8%), and hypophosphatemia in two patients (8%). No drug-related deaths were observed. Nineteen patients (73%) required dose reduction due to drug-related adverse events. Interpretation The observed activity of cabozantinib in patients with RET-rearranged lung cancers defines RET rearrangements as actionable drivers in patients with lung cancers. An improved understanding of tumor biology and novel therapeutic approaches will be required to improve outcomes with RET-directed targeted therapy.

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Roger S. Smith

A Signaling Network Reciprocally Regulates Genes Associated with Acute Infection and Chronic Persistence in Pseudomonas aeruginosa

Dynamics of Pseudomonas aeruginosa genome evolution

P. aeruginosa quorum-sensing systems and virulence

Cabozantinib in patients with advanced RET -rearranged non-small-cell lung cancer: an open-label, single-centre, phase 2, single-arm trial

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