Consecuencias del metabolismo de colina en Pseudomonas aeruginosa : Respuestas adaptativas en microorganismos

Objetivos Generales: Mediante el abordaje experimental desde el punto de vista fisiológico, bioquímico y molecular se pretende conocer la respuesta adaptativa de P. aeruginosa frente a diferentes estímulos ambientales tales como osmolaridad, pH y distintos tipos de ayuno nutricional. Objetivos Específicos: Aspectos Bioquímicos a) Se continuarán los estudios de las propiedades cinéticas y fisicoquímicas de la fosforilcolina fosfatasa de P. aeruginosa. b) Se caracterizarán los sistemas de transporte en P. aeruginosa para: compuestos de amonio cuaternario (colina, betaína, carnitina, N-trimetillisina); aminoácidos básicos (lisina, arginina) y ácidos (glutámico); poliaminas y Pi. Se tratará de establecer la presencia o ausencia de proteínas unidoras periplásmicas para estos compuestos. c) Se tratará de establecer la relación entre el metabolismo de colina y otros compuestos de amonio cuaternario con el metabolismo del ácido glutámico y trealosa en P. aeruginosa crecidas en medios iso e hiperosmolares obtenidos con soluciones salinas y solutos no ionizables. d) Se tratará de establecer en P. aeruginosa el recambio o destino metabólico del Pi y colina que se produce cuando la bacteria se enfrenta a diferentes situaciones nutricionales y otros tipos de estímulos tales como pHs extremos y distinta osmolaridad, tanto a nivel de proteínas periplásmicas, citosólicas, de membranas interna y citosólica, fosfolípidos, glucofosfolípidos, glucolípidos y lipopolisacáridos (LPS) y compuestos fosforilados de bajo peso molecular, ej. acetilfosfato, alarmonas, etc. Aspectos Genéticos y Moleculares a) Se obtendrán mutantes de P. aeruginosa con fenotipos característicos relacionados con los puntos anteriores. (...) b) Se construirá la librería genómica de P. aeruginosa en cósmido, plásmido y cDNA. Posteriormente se pretende la identificación, clonado y secuenciación de los genes relacionados con: 1) La síntesis de la fosfatasa ácida, colinesterasa y PLC. 2) El transporte de compuestos de amonio cuaternario, teniendo en cuanta que, al menos para colina, existen dos componententes, uno de alta y otro de baja afinidad. 3) La síntesis de las enzimas responsables de la oxidación de colina hasta betaína, vía la formación de aldehído de betaína. (...) 4) La síntesis de las enzimas responsables de la degradación de betaína hasta glicina. (...) 5) La síntesis de las enzimas responsables del metabolismo de carnitina en condiciones de alta y baja osmolaridad. (...) 6) La adaptabilidad de la bacteria al pH en condiciones de baja osmolaridad. (...)

Regulación transcripcional y relación entre estructura y función de proteínas relacionadas con el metabolismo de colina en Pseudomonas aeruginosa. Transcriptional regulation and relationship between structure and function of proteins related with the choline metabolism in Pseudomonas aeruginosa.

El objetivo general de este proyecto es dilucidar los mecanismos de acción a nivel molecular de enzimas y proteínas involucradas en el metabolismo de colina en Pseudomonas aeruginosa, con énfasis en la identificación de residuos aminoacídicos críticos y regulación de la expresión de los genes en estudio. Los objetivos específicos que se palntean involucran abordajes bioquímicos y moleculares y serán llevados a cabo mediante técnicas de biología molecular y bioquímica (mutación sitio-dirigida, deleción génica, expresión y purificación de proteínas, fusión transcripcional a genes reporteros, etc). Planteo de hipótesis: las proteínas que se inducen por colina (fosforilcolina fosfatasa (PchP), fosfolipasa C (PlcH), acetilcolinestera (AchE), proteínas periplásmicas unidoras de colina (PUch) podrían compartir: a) una organización génica y responder a la regulación por proteínas regulatorias o a factores ambientales de manera similar; b) residuos aminoacídicos conservados que intervengan en la unión o interacción con diferentes ligandos, principalmente, colina. Para ello, se plantean los siguientes Objetivos Específicos: 1) identificar las zonas promotoras de los genes que codifican para PchP, PlcH, AchE y PUch, a fin de localizar posibles sitios de unión a proteínas reguladoras y los factores ambientales que afectan la actividad promotora. 2) determinar en las proteínas mencionadas los residuos aminoacídicos de importancia involucrados en la catálisis y en la interacción con ligandos, principalmente en la unión a compuestos de alquilamonio; 3) Se iniciarán estudios que demuestren la relación entre la inducción por colina de varios factores de patogenicidad la virulencia del microorganismo, empleando mutantes simples o múltiples en estos factores y como modelo de patogenicidad el nematodo C. elegans. A partir de los resultados obtenidos se pretende tener un conocimiento profundo sobre la regulación molecular y bioquímica de varias enzimas comprometidas en la patología que produce P. aeruginosa. Esto más el conocimiento de la fisiología de este microorganismo abre el camino para la búsqueda de posibles blancos de acción de drogas. Por otro lado, se espera tener un conocimiento integral sobre la regulación de la expresión de las actividades enzimáticas relacionadas con el metabolismo de colina y la respuesta de P. aeruginosa ante la presencia de compuestos de alquilamonio utilizados como nutrientes. Se espera conocer el papel que desempeña cada uno de los sitios de unión a los diferentes ligandos para el funcionamiento y control de las enzimas mencionadas y explicar el comportamiento diferencial de las enzimas frente a distintos sustratos y otros ligandos. El conocimiento de los sitios de unión a compuestos de alquilamonio permitirá encontrar esos dominios en diferentes proteínas del género Pseudomonas y otras bacterias Gram negativas. Desde el punto de vista evolutivo, se podrá comparar la similitud de los sitios de unión a colina entre proteínas de organismos eucariotas con procariotas (ej. PUch de bacterias Gram positivas, transportadores de colina, proteína C reactiva, AchE de eucariotas contra las encontradas en bacterias del género Pseudomonas, fosfolipasas A, C o D, etc.). Este proyecto permitirá concretar al menos dos tesis doctorales (Sanchez, Otero) más varios trabajos finales de grado (tesinas) que son y serán realizados por alumnos de la carrera de Microbiología en la UNRC. Les permitirá a los doctorandos y a los alumnos de grado adquirir una formación bastante integral ya que utilizarán herramientas de la fisiología general bacteriana, de la bioquímica clásica, de la biología molecular y de la bioinformática.

Pharmacokinetics and safety of panobacumab: specific adjunctive immunotherapy in critical patients with nosocomial Pseudomonas aeruginosa O11 pneumonia.

Objectives Nosocomial Pseudomonas aeruginosa pneumonia remains a major concern in critically ill patients. We explored the potential impact of microorganism-targeted adjunctive immunotherapy in such patients. Patients and methods This multicentre, open pilot Phase 2a clinical trial (NCT00851435) prospectively evaluated the safety, pharmacokinetics and potential efficacy of three doses of 1.2 mg/kg panobacumab, a fully human monoclonal anti-lipopolysaccharide IgM, given every 72 h in 18 patients developing nosocomial P. aeruginosa (serotype O11) pneumonia. Results Seventeen out of 18 patients were included in the pharmacokinetic analysis. In 13 patients receiving three doses, the maximal concentration after the third infusion was 33.9 ± 8.0 μg/mL, total area under the serum concentration-time curve was 5397 ± 1993 μg h/mL and elimination half-life was 102.3 ± 47.8 h. Panobacumab was well tolerated, induced no immunogenicity and was detected in respiratory samples. In contrast to Acute Physiology and Chronic Health Evaluation II (APACHE II) prediction, all 13 patients receiving three doses survived, with a mean clinical resolution in 9.0 ± 2.7 days. Two patients suffered a recurrence at days 17 and 20. Conclusions These data suggest that panobacumab is safe, with a pharmacokinetic profile similar to that in healthy volunteers. It was associated with high clinical cure and survival rates in patients developing nosocomial P. aeruginosa O11 pneumonia. We concluded that these promising results warrant further trials.

Synthesis of medium-chain-length polyhydroxyalkanoates in arabidopsis thaliana using intermediates of peroxisomal fatty acid beta-oxidation.

Polyhydroxyalkanoate (PHA) is a family of polymers composed primarily of R-3-hydroxyalkanoic acids. These polymers have properties of biodegradable thermoplastics and elastomers. Medium-chain-length PHAs (MCL-PHAs) are synthesized in bacteria by using intermediates of the beta-oxidation of alkanoic acids. To assess the feasibility of producing MCL-PHAs in plants, Arabidopsis thaliana was transformed with the PhaC1 synthase from Pseudomonas aeruginosa modified for peroxisome targeting by addition of the carboxyl 34 amino acids from the Brassica napus isocitrate lyase. Immunocytochemistry demonstrated that the modified PHA synthase was appropriately targeted to leaf-type peroxisomes in light-grown plants and glyoxysomes in dark-grown plants. Plants expressing the PHA synthase accumulated electron-lucent inclusions in the glyoxysomes and leaf-type peroxisomes, as well as in the vacuole. These inclusions were similar to bacterial PHA inclusions. Analysis of plant extracts by GC and mass spectrometry demonstrated the presence of MCL-PHA in transgenic plants to approximately 4 mg per g of dry weight. The plant PHA contained saturated and unsaturated 3-hydroxyalkanoic acids ranging from six to 16 carbons with 41% of the monomers being 3-hydroxyoctanoic acid and 3-hydroxyoctenoic acid. These results indicate that the beta-oxidation of plant fatty acids can generate a broad range of R-3-hydroxyacyl-CoA intermediates that can be used to synthesize MCL-PHAs.

Neoadjuvant chemoradiotherapy with or without panitumumab in patients with wild-type KRAS, locally advanced rectal cancer (LARC): a randomized, multicenter, phase II trial SAKK 41/07.

BACKGROUND: We conducted a randomized, phase II, multicenter study to evaluate the anti-epidermal growth factor receptor (EGFR) mAb panitumumab (P) in combination with chemoradiotherapy (CRT) with standard-dose capecitabine as neoadjuvant treatment for wild-type KRAS locally advanced rectal cancer (LARC). PATIENTS AND METHODS: Patients with wild-type KRAS, T3-4 and/or N+ LARC were randomly assigned to receive CRT with or without P (6 mg/kg). The primary end-point was pathological near-complete or complete tumor response (pNC/CR), defined as grade 3 (pNCR) or 4 (pCR) histological regression by Dworak classification (DC). RESULTS: Forty of 68 patients were randomly assigned to P + CRT and 28 to CRT. pNC/CR was achieved in 21 patients (53%) treated with P + CRT [95% confidence interval (CI) 36%-69%] versus 9 patients (32%) treated with CRT alone (95% CI: 16%-52%). pCR was achieved in 4 (10%) and 5 (18%) patients, and pNCR in 17 (43%) and 4 (14%) patients. In immunohistochemical analysis, most DC 3 cells were not apoptotic. The most common grade ≥3 toxic effects in the P + CRT/CRT arm were diarrhea (10%/6%) and anastomotic leakage (15%/4%). CONCLUSIONS: The addition of panitumumab to neoadjuvant CRT in patients with KRAS wild-type LARC resulted in a high pNC/CR rate, mostly grade 3 DC. The results of both treatment arms exceeded prespecified thresholds. The addition of panitumumab increased toxicity.

Catabolite repression in Pseudomonas aeruginosa PAO1 regulates the uptake of C4 -dicarboxylates depending on succinate concentration.

In Pseudomonas aeruginosa carbon catabolite repression (CCR) is exerted by the CbrA/B-CrcZ-Crc global regulatory system. Crc is a translational repressor that, in the presence of preferred carbon sources, such as C4 -dicarboxylates, impairs the utilization of less preferred substrates. When non-preferred substrates are present, the CrcZ sRNA levels increase leading to Crc capture, thereby allowing growth of the bacterium at the expense of the non-preferred substrates. The C4 -dicarboxylate transport (Dct) system in P. aeruginosa is composed of two main transporters: DctA, more efficient at mM succinate concentrations, and DctPQM, more important at μM. In this study, we demonstrate that the Dct transporters are differentially regulated by Crc, depending on the concentration of succinate. At high concentrations, Crc positively regulates the expression of the dctA transporter gene and negatively regulates dctPQM post-transcriptionally. The activation of dctA is explained by a Crc-mediated repression of dctR, encoding a transcriptional repressor of dctA. At low succinate concentrations, Crc regulation is impaired. In this condition, CrcZ levels are higher and therefore more Crc proteins are sequestered, decreasing the amount of Crc available to perform CCR on dctR and dctPQM. As a result, expression of dctA is reduced and that of dctPQM is increased.

Pseudomonas aeruginosa adhesion to normal and injured respiratory mucosa

Human nasal polyps outgrowth culture were used to study the adhesion of Pseudomonas aeruginosa to respiratory cells. By transmission electron microscopy, bacteria associated with ciliated cells were identified trapped at the extremities of cilia, usually as aggregates of several bacterial cells. They were never seen at the interciliary spaces or attached along cilia. Bacteria were also seen to adhere to migrating cells of the periphery of the outgrowth culture. Using a model of repair of wounded respiratory epithelial cells in culture, we observed that the adhesion of P. aeruginosa to migrating cells of the edges of the repairing wounds was significantly higher than the adhesion to non-migrating cells and that adherent bacteria were surrounded by a fibrocnectin-containing fibrillar material The secretion of extracellular matrix components is involved in the process of epithelium repair following injury. To investigate the molecular basis of P. aeruginosa adhesion to migrating cells, bacteria were treated with a fibronectin solution before their incubation with the respiratory cells. P. aeruginosa treatment by fibronectin significantly increased their adhesion to migrating cells. Accordingly, we hypothesize that during cell migration, fibronectin secreted by epithelial cells may favour P. aeruginosa adhesion by establishing a bridge between the bacteria and the epithelial cell receptors. Such a mechanism may represent a critical step for P. aeruginosa infection of healing injured epithelium.

Detection of extracellular proteases from microorganisms on agar plates

We present herein an improved assay for detecting the presence of extracellular proteases from microorganisms on agar plates. Using different substrates (gelatin, BSA, hemoglobin) incorporated into the agar and varying the culture medium composition, we were able to detect proteolytic activities from Pseudomonas aeruginosa, Micrococcus luteus and Serratia marcescens as well as the influence that these components displayed in the expression of these enzymes. For all microorganisms tested we found that in agar-BHI or yeast extract medium containing gelatin the sensitivity of proteinase detection was considerably greater than in BSA-agar or hemoglobin-agar. However, when BSA or hemoglobin were added to the culture medium, there was an increase in growth along with a marked reduction in the amount of proteinase production. In the case of M. luteus the incorporation of glycerol in BHI or yeast extract gelatin-agar induced protease liberation. Our results indicate that the technique described here is of value for detecting extracellular proteases directly in the culture medium, by means of a qualitative assay, simple, inexpensive, straight forward method to assess the presence of the proteolytic activity of a given microorganism colony with great freedom in substrate selection.

Peroxisome proliferator-activated receptors mediate host cell proinflammatory responses to Pseudomonas aeruginosa autoinducer.

The pathogenic bacterium Pseudomonas aeruginosa utilizes the 3-oxododecanoyl homoserine lactone (3OC(12)-HSL) autoinducer as a signaling molecule to coordinate the expression of virulence genes through quorum sensing. 3OC(12)-HSL also affects responses in host cells, including the upregulation of genes encoding inflammatory cytokines. This proinflammatory response may exacerbate underlying disease during P. aeruginosa infections. The specific mechanism(s) through which 3OC(12)-HSL influences host responses is unclear, and no mammalian receptors for 3OC(12)-HSL have been identified to date. Here, we report that 3OC(12)-HSL increases mRNA levels for a common panel of proinflammatory genes in murine fibroblasts and human lung epithelial cells. To identify putative 3OC(12)-HSL receptors, we examined the expression patterns of a panel of nuclear hormone receptors in these two cell lines and determined that both peroxisome proliferator-activated receptor beta/delta (PPARbeta/delta) and PPARgamma were expressed. 3OC(12)-HSL functioned as an agonist of PPARbeta/delta transcriptional activity and an antagonist of PPARgamma transcriptional activity and inhibited the DNA binding ability of PPARgamma. The proinflammatory effect of 3OC(12)-HSL in lung epithelial cells was blocked by the PPARgamma agonist rosiglitazone, suggesting that 3OC(12)-HSL and rosiglitazone are mutually antagonistic negative and positive regulators of PPARgamma activity, respectively. These data identify PPARbeta/delta and PPARgamma as putative mammalian 3OC(12)-HSL receptors and suggest that PPARgamma agonists may be employed as anti-inflammatory therapeutics for P. aeruginosa infections.

Catabolic ornithine carbamoyltransferase of Pseudomonas aeruginosa. Importance of the N-terminal region for dodecameric structure and homotropic carbamoylphosphate cooperativity.

Pseudomonas aeruginosa has an anabolic (ArgF) and a catabolic (ArcB) ornithine carbamoyltransferase (OTCase). Despite extensive sequence similarities, these enzymes function unidirectionally in vivo. In the dodecameric catabolic OTCase, homotropic cooperativity for carbamoylphosphate strongly depresses the anabolic reaction; the residue Glu1O5 and the C-terminus are known to be essential for this cooperativity. When Glu1O5 and nine C-terminal amino acids of the catabolic OTCase were introduced, by in vitro genetic manipulation, into the closely related, trimeric, anabolic (ArgF) OTCase of Escherichia coli, the enzyme displayed Michaelis-Menten kinetics and no cooperativity was observed. This indicates that additional amino acid residues are required to produce homotropic cooperativity and a dodecameric assembly. To localize these residues, we constructed several hybrid enzymes by fusing, in vivo or in vitro, the E. coli argF gene to the P. aeruginosa arcB gene. A hybrid enzyme consisting of 101 N-terminal ArgF amino acids fused to 233 C-terminal ArcB residues and the reciprocal ArcB-ArgF hybrid were both trimers with little or no cooperativity. Replacing the seven N-terminal residues of the ArcB enzyme by the corresponding six residues of E. coli ArgF enzyme produced a dodecameric enzyme which showed a reduced affinity for carbamoylphosphate and an increase in homotropic cooperativity. Thus, the N-terminal amino acids of catabolic OTCase are important for interaction with carbamoylphosphate, but do not alone determine dodecameric assembly. Hybrid enzymes consisting of either 26 or 42 N-terminal ArgF amino acids and the corresponding C-terminal ArcB residues were both trimeric, yet they retained some homotropic cooperativity. Within the N-terminal ArcB region, a replacement of motif 28-33 by the corresponding ArgF segment destabilized the dodecameric structure and the enzyme existed in trimeric and dodecameric states, indicating that this region is important for dodecameric assembly. These findings were interpreted in the light of the three-dimensional structure of catabolic OTCase, which allows predictions about trimer-trimer interactions. Dodecameric assembly appears to require at least three regions: the N- and C-termini (which are close to each other in a monomer), residues 28-33 and residues 147-154. Dodecameric structure correlates with high carbamoylphosphate cooperativity and thermal stability, but some trimeric hybrid enzymes retain cooperativity, and the dodecameric Glu1O5-->Ala mutant gives hyperbolic carbamoylphosphate saturation, indicating that dodecameric structure is neither necessary nor sufficient to ensure cooperativity.

Health Technical Memorandum 04-01: Addendum & Pseudomonas Aeruginosa & Advice for augmented care units

Water Systems HTM 04-01

Antibioticoterapia Intravenosa domiciliaria mediante bomba de perfusión continua de la sobreinfección respiratoria por Pseudomonas aeruginosa en el paciente con enfermedad pulmonar obstructiva crónica.

La malaltia pulmonar obstructiva crónica (MPOC) té una prevalença elevada al nostra medi i un gran impacte econòmic. La sobreinfecció respiratoria en els pacients MPOC avançats, es bàsicament, per Pseudomonas. L´antibioticoteràpia domiciliaria endovenosa en aquest tipus de sobreinfecció es de gran importància. La forma d´administració de l´antibiòtic es mitjançant bombes d´infusió continues i bombes d´infusió intermitents. Es tracta d´un estudi comparatiu dels dos tipus de bombes d´infusió per l´erradicació de Pseudomonas aeruginosa en el pacient MPOC.