Posen: Replik gegen den Correspondenten Kz.

J. S.

Bacteriemias por Pseudomonas Aeruginosa : an��lisis comparativo

Objetivos: Analizar caracter��sticas cl��nicas y morbimortalidad de las bacteriemias por Pseudomonas aeruginosa comparadas con Klebsiella spp en pacientes hospitalizados en un Servicio de Cl��nica M��dica de adultos. Material y m��todos: Estudio protocolizado, descriptivo, observacional de 15 a��os de duraci��n. Criterio de inclusi��n: 2 o m��s hemocultivos positivos para el germen. Los datos fueron procesados en EPI Info 6.04. El criterio de significaci��n se estableci�� para un error alfa menor del 5%. Resultados: Se detectaron en el per��odo de estudio 282 bacteriemias por bacilos gram negativos de las cuales 19 fueron por Pseudomonas aeruginosa (6.7%) y 76 por Klebsiella (26.9%). No se encontraron diferencias significativas entre ambas en cuanto a edad media [53.9 a��os (DS��17.9 ) vs 58.7 a��os (DS��15.2)], sexo (femenino: 26.3 vs 38.2%) ni complicaciones (77.8 vs 77.3%). La presencia de neutropenia (52.6 vs 9.2%)(p<0.0001), comorbilidad mayor (94.7 vs 68.4%)(p<0.05), neoplasias (47.4 vs 22.4%)(p<0.05), uso de corticoides (21.1 vs 3.9%)(p<0.05), e inmunosupresores (31.6 vs 7.9%)(p<0.01), trombocitopenia (77.7 vs 49.3%) (p<0.05) y leucopenia (52.6 vs 21.3%)(p<0.01) fueron m��s frecuentes en las bacteriemias por P. aeruginosa. Result�� m��s frecuente la hipoalbuminemia (88.5 vs 37.5%)(p<0.001) en las bacteriemias por Klebsiella spp. No se encontraron diferencias significativas en cuanto a puerta de entrada conocida (78.9 vs 77.6%), anemia (84.2 vs 71.2%), complicaciones infecciosas (84.2 vs 73.7%), descompensaci��n de com��rbidas (55.6 vs 51.3%) y encefalopat��a (36.8 vs 57.9%)(pNS). La mortalidad precoz (dentro de los 7 d��as) fue significativamente mayor en el grupo de las bacteriemias por P.aeruginosa (57.1 vs 12%) (p<0.01), sin diferencias en la mortalidad global (36.8 vs 32.9%) (pNS). Conclusiones: Las bacteriemias por P.aeruginosa comparadas con las producidas por Klebsiella spp. se asociaron significativamente a mayor frecuencia de neoplasias, leucopenia, trombocitopenia y neutropenia, comorbilidad mayor, uso de corticoides e inmunosupresores, y a mortalidad precoz.

Estudio sobre la influencia de la inoculaci��n de las rizobacterias Azospirillum brasilense y Pseudomonas fluorescens sobre el desarrollo morfol��gico y el contenido de aceites esenciales en las especies arom��ticas Ocimum basilicum var. genovesse, Ocimum basilicum var. minimum, Petroselinum sativum var. lisa y Salvia officinalis.

En el presente estudio se analiza la influencia de la inoculaci��n con Azospirillum brasilense, con Pseudomonas fluorescens y la inoculaci��n conjunta con ambas rizobacterias en las especies de plantas arom��ticas Ocimum basilicum var. genovesse, Ocimum basilicum var. minimum, Petroselinum sativum var. lisa y Salvia officinalis. Se evaluar�� su desarrollo morfol��gico, atendiendo a tres par��metros: la longitud del tallo, el peso fresco y la superficie foliar. As�� como el posible incremento en el contenido de aceite esencial que pueda tener la planta tratada. El cultivo se llev�� a cabo en alveolos de ForestPot�� 300, sobre mezcla de turba y vermiculita 3:1, con riego diario y sin adici��n de fertilizantes. Los resultados indican que en todas las especies y en todos los apartados estudiados, la inoculaci��n de las rizobacterias produjo un incremento del desarrollo y del contenido de aceite esencial en comparaci��n con el tratamiento Control, excepto en el caso de la longitud de las dos variedades de O. basilicum al inocularlas con P. fluorescens, en las que produjo una ligera disminuci��n respecto al Control. En el caso de P. sativum var. lisa, solo las plantas que fueron inoculadas sobrevivieron. A partir de estos resultados, puede decirse que la inoculaci��n con estas rizobacteras promotoras del crecimiento puede tener una gran importancia como sustituci��n de fertilizantes minerales, obteni��ndose de este modo una producci��n m��s ecol��gica y respetuosa con el medio.

The type II secretion system (Xcp) of Pseudomonas putida is active and involved in the secretion of phosphatases.

The genome of the Gram-negative bacterium Pseudomonas putida harbours a complete set of xcp genes for a type II protein secretion system (T2SS). This study shows that expression of these genes is induced under inorganic phosphate (Pi ) limitation and that the system enables the utilization of various organic phosphate sources. A phosphatase of the PhoX family, previously designated UxpB, was identified, which was produced under low Pi conditions and transported across the cell envelope in an Xcp-dependent manner demonstrating that the xcp genes encode an active T2SS. The signal sequence of UxpB contains a twin-arginine translocation (Tat) motif as well as a lipobox, and both processing by leader peptidase II and Tat dependency were experimentally confirmed. Two different tat gene clusters were detected in the P.?putida genome, of which one, named tat-1, is located adjacent to the uxpB and xcp genes. Both Tat systems appeared to be capable of transporting the UxpB protein. However, expression of the tat-1 genes was strongly induced by low Pi levels, indicating a function of this system in survival during Pi starvation.

Light regulates motility, attachment and virulence in the plant pathogen Pseudomonas syringae pv tomato DC3000.

Pseudomonas syringae pv tomato DC3000 (Pto) is the causal agent of the bacterial speck of tomato, which leads to significant economic losses in this crop. Pto inhabits the tomato phyllosphere, where the pathogen is highly exposed to light, among other environmental factors. Light represents a stressful condition and acts as a source of information associated with different plant defence levels. Here, we analysed the presence of both blue and red light photoreceptors in a group of Pseudomonas. In addition, we studied the effect of white, blue and red light on Pto features related to epiphytic fitness. While white and blue light inhibit motility, bacterial attachment to plant leaves is promoted. Moreover, these phenotypes are altered in a blue-light receptor mutant. These light-controlled changes during the epiphytic stage cause a reduction in virulence, highlighting the relevance of motility during the entry process to the plant apoplast. This study demonstrated the key role of light perception in the Pto phenotype switching and its effect on virulence.

The type II secretion system (Xcp) of Pseudomonas putida is active and involved in the secretion of phosphatases.

The genome of the Gram-negative bacterium Pseudomonas putida harbours a complete set of xcp genes for a type II protein secretion system (T2SS). This study shows that expression of these genes is induced under inorganic phosphate (Pi ) limitation and that the system enables the utilization of various organic phosphate sources. A phosphatase of the PhoX family, previously designated UxpB, was identified, which was produced under low Pi conditions and transported across the cell envelope in an Xcp-dependent manner demonstrating that the xcp genes encode an active T2SS. The signal sequence of UxpB contains a twin-arginine translocation (Tat) motif as well as a lipobox, and both processing by leader peptidase II and Tat dependency were experimentally confirmed. Two different tat gene clusters were detected in the P.?putida genome, of which one, named tat-1, is located adjacent to the uxpB and xcp genes. Both Tat systems appeared to be capable of transporting the UxpB protein. However, expression of the tat-1 genes was strongly induced by low Pi levels, indicating a function of this system in survival during Pi starvation.

Translocation and Functional Analysis of Pseudomonas savastanoi pv. savastanoi NCPPB 3335 Type III Secretion System Effectors Reveals Two Novel Effector Families of the Pseudomonas syringae Complex

Pseudomonas savastanoi pv. savastanoi NCPPB 3335 causes olive knot disease and is a model pathogen for exploring bacterial infection of woody hosts. The type III secretion system (T3SS) effector repertoire of this strain includes 31 effector candidates plus two novel candidates identified in this study which have not been reported to translocate into plant cells. In this work, we demonstrate the delivery of seven NCPPB 3335 effectors into Nicotiana tabacum leaves, including three proteins from two novel families of the P. syringae complex effector super-repertoire (HopBK and HopBL), one of which comprises two proteins (HopBL1 and HopBL2) that harbor a SUMO protease domain. When delivered by P. fluorescens heterologously expressing a P. syringae T3SS, all seven effectors were found to suppress the production of defense-associated reactive oxygen species. Moreover, six of these effectors, including the truncated versions of HopAA1 and HopAZ1 encoded by NCPPB 3335, suppressed callose deposition. The expression of HopAZ1 and HopBL1 by functionally effectorless P. syringae pv. tomato DC3000D28E inhibited the hypersensitive response in tobacco and, additionally, expression of HopBL2 by this strain significantly increased its competitiveness in N. benthamiana. DNA sequences encoding HopBL1 and HopBL2 were uniquely detected in a collection of 31 P. savastanoi pv. savastanoi strains and other P. syringae strains isolated from woody hosts, suggesting a relevant role of these two effectors in bacterial interactions with olive and other woody plants.

Isolation of recombinant antibody fragments (scFv) by phage display technology for detection of almond allergens in food products

Tree nut allergies are considered an important health issue in developed countries. To comply with the regulations on food labeling, reliable allergen detection methods are required. In this work we isolated almond-specific recombinant antibody fragments (scFv) from a commercial phage display library bypassing the use of live animals, hence being consistent with the latest policies on animal welfare. To this end an iterative selection procedure employing the Tomlinson I phage display library and a crude almond protein extract was carried out. Two different almond-specific scFv (named PD1F6 and PD2C9) were isolated after two rounds of biopanning, and an indirect phage ELISA was implemented to detect the presence of almond protein in foodstuffs. The isolated scFvs demonstrated to be highly specific and allowed detection of 40 ng mL?1 and 100 ng mL?1 of raw and roasted almond protein, respectively. The practical detection limit of the assay in almond spiked food products was 0.1 mg g?1 (110e120 ppm). The developed indirect phage ELISA was validated by analysis of 92 commercial food products, showing good correlation with the results obtained by a previously developed real-time PCR method for the detection of almond in foodstuffs. The selected phage clones can be affinity maturated to improve their sensitivity and genetically engineered to be employed in different assay formats.

A site-specific recombinase is required for competitive root colonization by Pseudomonas fluorescens WCS365

A colonization mutant of the efficient root-colonizing biocontrol strain Pseudomonas fluorescens WCS365 is described that is impaired in competitive root-tip colonization of gnotobiotically grown potato, radish, wheat, and tomato, indicating a broad host range mutation. The colonization of the mutant is also impaired when studied in potting soil, suggesting that the defective gene also plays a role under more natural conditions. A DNA fragment that is able to complement the mutation for colonization revealed a multicistronic transcription unit composed of at least six ORFs with similarity to lppL, lysA, dapF, orf235/233, xerC/sss, and the largely incomplete orf238. The transposon insertion in PCL1233 appeared to be present in the orf235/233 homologue, designated orf240. Introduction of a mutation in the xerC/sss homologue revealed that the xerC/sss gene homologue rather than orf240 is crucial for colonization. xerC in Escherichia coli and sss in Pseudomonas aeruginosa encode proteins that belong to the �� integrase family of site-specific recombinases, which play a role in phase variation caused by DNA rearrangements. The function of the xerC/sss homologue in colonization is discussed in terms of genetic rearrangements involved in the generation of different phenotypes, thereby allowing a bacterial population to occupy various habitats. Mutant PCL1233 is assumed to be locked in a phenotype that is not well suited to compete for colonization in the rhizosphere. Thus we show the importance of phase variation in microbe���plant interactions.

Comparison of fusion phage libraries displaying VH or single-chain Fv antibody fragments derived from the antibody repertoire of a vaccinated melanoma patient as a source of melanoma-specific targeting���molecules

A single-chain Fv (scFv) fusion phage library derived from random combinations of VH and VL (variable heavy and light chains) domains in the antibody repertoire of a vaccinated melanoma patient was previously used to isolate clones that bind specifically to melanoma cells. An unexpected finding was that one of the clones encoded a truncated scFv molecule with most of the VL domain deleted, indicating that a VH domain alone can exhibit tumor-specific binding. In this report a VH fusion phage library containing VH domains unassociated with VL domains was compared with a scFv fusion phage library as a source of melanoma-specific clones; both libraries contained the same VH domains from the vaccinated melanoma patient. The results demonstrate that the clones can be isolated from both libraries, and that both libraries should be used to optimize the chance of isolating clones binding to different epitopes. Although this strategy has been tested only for melanoma, it is also applicable to other cancers. Because of their small size, human origin and specificity for cell surface tumor antigens, the VH and scFv molecules have significant advantages as tumor-targeting molecules for diagnostic and therapeutic procedures and can also serve as probes for identifying the cognate tumor antigens.

Phage display of a catalytic antibody to optimize affinity for transition-state analog���binding

Catalytic antibodies have shown great promise for catalyzing a tremendously diverse set of natural and unnatural chemical transformations. However, few catalytic antibodies have efficiencies that approach those of natural enzymes. In principle, random mutagenesis procedures such as phage display could be used to improve the catalytic activities of existing antibodies; however, these studies have been hampered by difficulties in the recombinant expression of antibodies. Here, we have grafted the antigen binding loops from a murine-derived catalytic antibody, 17E8, onto a human antibody framework in an effort to overcome difficulties associated with recombinant expression and phage display of this antibody. ���Humanized��� 17E8 retained similar catalytic and hapten binding properties as the murine antibody while levels of functional Fab displayed on phage were 200-fold higher than for a murine variable region/human constant region chimeric Fab. This construct was used to prepare combinatorial libraries. Affinity panning of these resulted in the selection of variants with 2- to 8-fold improvements in binding affinity for a phosphonate transition-state analog. Surprisingly, none of the affinity-matured variants was more catalytically active than the parent antibody and some were significantly less active. By contrast, a weaker binding variant was identified with 2-fold greater catalytic activity and incorporation of a single substitution (Tyr-100aH ��� Asn) from this variant into the parent antibody led to a 5-fold increase in catalytic efficiency. Thus, phage display methods can be readily used to optimize binding of catalytic antibodies to transition-state analogs, and when used in conjunction with limited screening for catalysis can identify variants with higher catalytic efficiencies.

RNA folding kinetics regulates translation of phage MS2 maturation���gene

The gene for the maturation protein of the single-stranded RNA coliphage MS2 is preceded by an untranslated leader of 130 nt, which folds into a cloverleaf, i.e., three stem���loop structures enclosed by a long distance interaction (LDI). This LDI prevents translation because its 3��� moiety contains the Shine���Dalgarno sequence of the maturation gene. Previously, several observations suggested that folding of the cloverleaf is kinetically delayed, providing a time window for ribosomes to access the RNA. Here we present direct evidence for this model. In vitro experiments show that ribosome binding to the maturation gene is faster than refolding of the denatured cloverleaf. This folding delay appears related to special properties of the leader sequence. We have replaced the three stem���loop structures by a single five nt loop. This change does not affect the equilibrium structure of the LDI. Nevertheless, in this construct, the folding delay has virtually disappeared, suggesting that now the RNA folds faster than ribosomes can bind. Perturbation of the cloverleaf by an insertion makes the maturation start permanently accessible. A pseudorevertant that evolved from an infectious clone carrying the insertion had overcome this defect. It showed a wild-type folding delay before closing down the maturation gene. This experiment reveals the biological significance of retarded cloverleaf formation.

Altered 3���-terminal RNA structure in phage Q�� adapted to host factor-less Escherichia���coli

The RNA phage Q�� requires for the replication of its genome an RNA binding protein called Q�� host factor or Hfq protein. Our previous results suggested that this protein mediates the access of replicase to the 3���-end of the Q�� plus strand RNA. Here we report the results of an evolutionary experiment in which phage Q�� was adapted to an Escherichia coli Q13 host strain with an inactivated host factor (hfq) gene. This strain initially produced phage at a titer ���10,000-fold lower than the wild-type strain and with minute plaque morphology, but after 12 growth cycles, phage titer and plaque size had evolved to levels near those of the wild-type host. RNAs isolated from adapted Q�� mutants were efficient templates for replicase without host factor in vitro. Electron microscopy showed that mutant RNAs, in contrast to wild-type RNA, efficiently interacted with replicase at the 3���-end in the absence of host factor. The same set of four mutations in the 3���-terminal third of the genome was found in several independently evolved phage clones. One mutation disrupts the base pairing of the 3���-terminal CCCoh sequence, suggesting that the host factor stimulates activity of the wild-type RNA template by melting out its 3���-end.

Cystic fibrosis transmembrane conductance regulator is an epithelial cell receptor for clearance of Pseudomonas aeruginosa from the���lung

The cystic fibrosis transmembrane conductance regulator (CFTR) is a chloride ion channel, but its relationship to the primary clinical manifestation of CF, chronic Pseudomonas aeruginosa pulmonary infection, is unclear. We report that CFTR is a cellular receptor for binding, endocytosing, and clearing P. aeruginosa from the normal lung. Murine cells expressing recombinant human wild-type CFTR ingested 30���100 times as many P. aeruginosa as cells lacking CFTR or expressing mutant ��F508 CFTR protein. Purified CFTR inhibited ingestion of P. aeruginosa by human airway epithelial cells. The first extracellular domain of CFTR specifically bound to P. aeruginosa and a synthetic peptide of this region inhibited P. aeruginosa internalization in vivo, leading to increased bacterial lung burdens. CFTR clears P. aeruginosa from the lung, indicating a direct connection between mutations in CFTR and the clinical consequences of CF.