Searching for Antipneumococcal Targets: Choline-Binding Modules as Phagocytosis Enhancers.

Choline-binding proteins (CBPs) from Streptococcus pneumoniae comprise a family of modular polypeptides involved in essential events of this pathogen. They recognize the choline residues present in the teichoic and lipoteichoic acids of the cell wall using the so-called choline-binding modules (CBMs). The importance of CBPs in pneumococcal physiology points to them as novel targets to combat antimicrobial resistances shown by this organism. In this work we have tested the ability of exogenously added CBMs to act as CBP inhibitors by competing with the latter for the binding to the choline molecules in the bacterial surface. First, we carried out a thorough physicochemical characterization of three native CBMs, namely C-LytA, C-Cpl1, and C-CbpD, and assessed their affinity for choline and macromolecular, pneumococcal cell-wall mimics. The interaction with these substrates was evaluated by molecular modeling, analytical ultracentrifugation, surface plasmon resonance, and fluorescence and circular dichroism spectroscopies. Van't Hoff thermal analyses unveiled the existence of one noncanonical choline binding site in each of the C-Cpl1 and C-CbpD proteins, leading in total to 5 ligand-binding sites per dimer and 4 sites per monomer, respectively. Remarkably, the binding affinities of the CBMs do not directly correlate with their native oligomeric state or with the number of choline-binding sites, suggesting that choline recognition by these modules is a complex phenomenon. On the other hand, the exogenous addition of CBMs to pneumococcal planktonic cultures caused extensive cell-chaining probably as a consequence of the inhibition of CBP attachment to the cell wall. This was accompanied by bacterial aggregation and sedimentation, causing an enhancement of bacterial phagocytosis by peritoneal macrophages. In addition, the rational design of an oligomeric variant of a native CBM led to a substantial increase in its antibacterial activity by multivalency effects. These results suggest that CBMs might constitute promising nonlytic antimicrobial candidates based on the natural induction of the host defense system.

Widening the antimicrobial spectrum of esters of bicyclic amines: In vitro effect on gram-positive Streptococcus pneumoniae and gram-negative non-typeable Haemophilus influenzae biofilms.

Antibiotic resistance is a global current threat of increasing importance. Moreover, biofilms represent a medical challenge since the inherent antibiotic resistance of their producers demands the use of high doses of antibiotics over prolonged periods. Frequently, these therapeutic measures fail, contributing to bacterial persistence, therefore demanding the development of novel antimicrobials. Esters of bicyclic amines (EBAs), which are strong inhibitors of Streptococcus pneumoniae growth, were initially designed as inhibitors of pneumococcal choline-binding proteins on the basis of their structural analogy to the choline residues in the cell wall. However, instead of mimicking the characteristic cell chaining phenotype caused by exogenously added choline on planktonic cultures of pneumococcal cells, EBAs showed an unexpected lytic activity. In this work we demonstrate that EBAs display a second, and even more important, function as cell membrane destabilizers. We then assayed the inhibitory and disintegrating activity of these molecules on pneumococcal biofilms. The selected compound (EBA 31) produced the highest effect on S. pneumoniae (encapsulated and non-encapsulated) biofilms at very low concentrations. EBA 31 was also effective on mixed biofilms of non-encapsulated S. pneumoniae plus non-typeable Haemophilus influenzae, two pathogens frequently forming a self-produced biofilm in the human nasopharynx. These results support the role of EBAs as a promising alternative for the development of novel, broad-range antimicrobial drugs encompassing both Gram-positive and Gram-negative pathogens.

An enzymatic system for decolorization of wastewater dyes using immobilized CueO laccase-like multicopper oxidase on poly-3-hydroxybutyrate.

The presence of synthetic dyes in wastewaters generated by the textile industry constitutes a serious environmental and health problem that urges the scientific community on an appropriate action. As a proof-of-concept, we have developed a novel approach to design enzymatic bioreactors with the ability to decolorize dye solutions through the immobilization of the bacterial CueO laccase-like multicopper oxidase from Escherichia coli on polyhydroxybutyrate (PHB) beads by making use of the BioF affinity tag. The decolorization efficiency of the system was characterized by a series of parameters, namely maximum enzyme adsorption capacity, pH profile, kinetic constants, substrate range, temperature and bioreactor recycling. Depending on the tested dye, immobilization increased the catalytic activity of CueO by up to 40-fold with respect to the soluble enzyme, reaching decolorization efficiencies of 45-90%. Our results indicate that oxidase bioreactors based on polyhydroxyalkanoates are a promising alternative for the treatment of coloured industrial wastewaters.

Sobreexpresión de C-MET en carcinoma de vesícula y del tracto biliar: prevalencia y correlación clínico-molecular / Overexpression of C-MET in gallbladder and biliary tract carcinoma: prevalence and clinical-molecular correlation

El objetivo fue determinar la sobreexpresión de c-MET en pacientes con cáncer biliar y analizar asociaciones con parámetros clínicos. Este es un estudio descriptivo, longitudinal, retrospectivo y prospectivo. Se determinó la sobreexpresión por inmunohistoquímica en 58 pacientes con resultados: positivo fuerte, positivo débil y negativo. Se construyeron curvas de supervivencia global con el método de KaplanMeier en todos los pacientes y en subgrupos según estadío, género, origen tumoral y grado de diferenciación histológica. La diferencia en supervivencia global entre subgrupos se analizó por el método log-rank. La asociación entre sobreexpresión y grado de diferenciación se estudió por el método chi cuadrado. Las pruebas estadísticas se realizaron a dos colas con un valor de p 0.05. Veintinueve muestras (50%) fueron negativas, 24 (41%) positivas débiles y 5 (9%) positivas fuertes. La mediana de supervivencia fue 18.2, 11.3 y 11.7 meses en pacientes con sobreexpresión negativa, positiva débil y positiva fuerte, respectivamente. Sin embargo, la diferencia en supervivencia global entre pacientes c-MET negativos y positivos (fuerte y débil) no alcanzó significancia estadística (p 0.068). En los subgrupos los resultados fueron similares. La sobreexpresión se asoció al grado de diferenciación (p 0.015), mostrando una relación inversa; y no se correlacionó con tasa de respuesta a la quimioterapia y tiempo a la progresión. La sobreexpresión de c-MET es frecuente en cáncer biliar, se asocia al grado de diferenciación tumoral y podría tener valor pronóstico. Si la vía c-MET es importante, los fármacos inhibidores tendrían impacto en la supervivencia global (AU)

The objective was to determine the overexpression of c-MET in patients with biliary cancer and to analyze associations with clinical parameters. This is a descriptive, longitudinal, retrospective and prospective study. Overexpression was obtained by immunohistochemistry in 58 patients, with the following results: strong positive, weak positive and negative. Overall survival curves were constructed using the Kaplan-Meier method in all patients and in subgroups according to stage, gender, tumor origin and grade of histological differentiation. The difference in overall survival between groups was analyzed by the log-rank test. The association between overexpression and grade of differentiation was studied using the chisquare method. Statistical tests were two-tailed with a p value 0.05. Twenty nine samples (50%) were negative, 24 (41%) weak positive and 5 (9%) strong positive. Median survival was 18.2, 11.3 and 11.7 months in patients with negative, weak positive and strong positive overexpression, respectively. However, the difference in overall survival between negative and positive (strong and weak together) c-MET patients did not reach statistical significance (p 0.068). In the subgroup analyses the results were similar. Overexpression correlated with tumor grade (p 0.015), showing an inverse association; and was not associated neither with chemotherapy response rate nor with time to progression. Overexpression of c-MET is common in biliary cancer, is associated with grade of tumor differentiation and could have prognostic value. If the c-MET pathway is important, the inhibitory drugs would have an impact on overall survival (AU)