Elucidating The Role of MifS-MifR Two-Component System in Regulating Pseudomonas aeruginosa Pathogenicity

Tatke, Gorakh Digambar

04 November 2016

Pseudomonas aeruginosa is a Gram-negative, metabolically versatile, opportunistic pathogen that exhibits a multitude of virulence factors, and is extraordinarily resistant to a gamut of clinically significant antibiotics. This ability is in part mediated by two-component systems (TCS) that play a crucial role in regulating virulence mechanisms, metabolism and antibiotic resistance. Our sequence analysis of the P. aeruginosa PAO1 genome revealed the presence of two open reading frames, mifS and mifR, which encodes putative TCS proteins, a histidine sensor kinase MifS and a response regulator MifR, respectively. This two-gene operon was found immediately upstream of the poxAB operon, where poxB encodes a chromosomal ß-lactamase, hinting at the role of MifSR TCS in regulating antibiotic resistance. However, loss of mifSR had no effect on the antibiotic resistance profile when compared to P. aeruginosa parent PAO1 strain. Subsequently, our phenotypic microarray data (BioLOG) and growth profile studies indicated the inability of mifSR mutants to grow in α-ketoglutarate (α-KG), a key tricarboxylic acid (TCA) cycle intermediate, as a sole carbon source. To date, very little is known about the physiology of P. aeruginosa when provided with α-KG as its sole carbon source and the role of MifS and MifR TCS in virulence. Importantly, in the recent years, α-KG has gained notoriety for its newly identified role as a signaling molecule in addition to its conventional role in metabolism. This led us to hypothesize that MifSR TCS is involved in α-KG utilization and virulence in P. aeruginosa. Using mifS, mifR and mifSR clean in-frame deletion strains, our study demonstrates that the MifSR TCS modulates the expression P. aeruginosa kgtP (PA5530) and pcaT (PA0229) genes encoding putative α-KG permeases. In addition, our study shows that the MifSR-regulation of these transporters requires functional sigma factor RpoN (σ54). Loss of mifSR in the presence of α-KG, resulted in differential regulation of P. aeruginosa key virulence determinants including biofilm formation, motility, cell cytoxicity and the production of pyocyanin and pyoverdine. Involvement of multiple regulators and transporters suggests the presence of an intricate circuitry in the transport of α-KG and its importance in P. aeruginosa survival. This is further supported by the α-KG-dependent MifSR regulation of multiple virulence mechanisms. Simultaneous regulation of multiple mechanisms involved in P. aeruginosa pathogenesis suggests a complex mechanism of MifSR action. Understanding the physiological cues and regulation would provide a better stratagem to fight often indomitable P. aeruginosa infections.

Pseudomonas aeruginosa

Two Component Systems (TCS)

MifS-MifR Two-Component System

alpha-Ketoglutarate

Tricarboxylic acid Cycle

Metabolism

Antibiotic Resistance

Bacteriology

Biology

Life Sciences

Microbial Physiology

Microbiology

Pathogenic Microbiology

Physiology

Die regulatorischen Funktionen des paralogen Phosphotransferase Systems (PTSNtr) in Escherichia coli. / The regulatory functions of the nitrogen-related phosphotransferase system, PTS(Ntr) in Escherichia coli

Lüttmann, Denise

25 January 2012

No description available.

570 Biowissenschaften, Biologie

42.13 Molekularbiologie

Biology (incl. Psychology)

Escherichia coli

EIIANtr

PTS

PTS(Ntr)

Zwei-Komponenten Systeme

Protein-Protein Interaktion

Genregulation

Escherichia coli

EIIANtr

PTS

PTS(Ntr)

two-component systems

protein-protein interaction

genregulation

42.20 Genetik

Kristallographische Analyse von pathologischen Kristallen, Periplasmischen dömane von ligandfreien CitA Sensor Kinasen und PDI-verwandten Chaperone / Crystallographic Analysis of Pathological Crystals, Periplasmic Domain of Ligand-free CitA Sensor Kinase and PDI-related Chaperones

Sevvana, Madhumati

04 July 2006

No description available.

540 Chemie

Mathematics and Computer Science

Roentgenstrukturanalyse

Nicht-Merohedrische

Merohedrische

Zwilling

SAD

Zweikomponentensysteme

Histidin-Protein-Kinasen

Klebsiella pneumoniae

Sensor Kinasen

Signaltransfersysteme

Wind PDI-verwandten Chaperone

Chaperone

Thioredoxin

Drosophila

X-ray Structure analysis

Non-Merohedral

Merohedral

Twin

SAD

Two component systems

Histidine-protein kinases

Klebsiella pneumoniae

Sensor Kinases

Signal transduction

Wind PDI-related Chaperones

Chaperones

Thiredoxin

Drosophila

35.25

35.62

35.70

S

Modely s neostrým rozhraním v teorii směsí / Diffuse interface models in theory of interacting continua

Řehoř, Martin

January 2018

We study physical systems composed of at least two immiscible fluids occu- pying different regions of space, the so-called phases. Flows of such multi-phase fluids are frequently met in industrial applications which rises the need for their numerical simulations. In particular, the research conducted herein is motivated by the need to model the float glass forming process. The systems of interest are in the present contribution mathematically described in the framework of the so-called diffuse interface models. The thesis consists of two parts. In the modelling part, we first derive standard diffuse interface models and their generalized variants based on the concept of multi-component continuous medium and its careful thermodynamic analysis. We provide a critical assessment of assumptions that lead to different models for a given system. Our newly formulated class of generalized models of Cahn-Hilliard-Navier-Stokes-Fourier (CHNSF) type is applicable in a non-isothermal setting. Each model belonging to that class describes a mixture of separable, heat conducting Newtonian fluids that are either compressible or incompressible. The models capture capillary and thermal effects in thin interfacial regions where the fluids actually mix. In the computational part, we focus on the development of an efficient and robust...