RESUMO

Recent results with respect to the secretory production of bio-active Mycobacterium tuberculosis proteins in Streptomyces have stimulated the further exploitation of this host as a bacterial cell factory. However, the rapid isolation of a recombinant protein by conventional procedures can be a restrictive step. A previous attempt to isolate recombinant antigens fused to the widely used 6His-tag was found to be relatively incompatible with secretory production in the Streptomyces host. As an alternative, the eight-residue Strep-tag® II (WSHPQFEK), displaying intrinsic binding affinity towards streptavidin, was evaluated for the secretory production of two M. tuberculosis immunodominant antigens in Streptomyces lividans and their subsequent downstream processing. Therefore, the genes ag85A (Rv3804c, encoding the mycolyl-transferase Ag85A) and Rv2626c (encoding hypoxic response protein 1), were equipped with a 3'-Strep-tag® II-encoding sequence and placed under control of the Streptomyces venezuelae CBS762.70 subtilisin inhibitor (vsi) transcriptional, translational and signal sequences. Strep-tagged Ag85A and Rv2626c proteins were detected in the spent medium of recombinant S. lividans cultures at 48h of growth, and purified using a Strep-Tactin Superflow® matrix. Recombinant Ag85A appeared as a 30-kDa protein of which the N-terminal amino acid sequence was identical to the expected one. Rv2626c was produced in two forms of 17 and 37kDa respectively, both with the same predicted N-terminal sequence, suggesting that the 37-kDa product is an Rv2626c dimer. The obtained results indicate that the Strep-tagII is proteolytically stable in Streptomyces and does not interfere with the membrane translocation of Ag85A and Rv2626c. A comparison of reactivity of serum from tuberculosis patients versus healthy persons by ELISA showed that both S. lividans-derived antigens were recognized by sera of individuals infected with M. tuberculosis, indicating that they remained antigenetically active. To our knowledge, this is the first report showing the usefulness of an affinity peptide for detection and efficient downstream processing of recombinant proteins produced in Streptomyces. The present results add up strength to the significance of S. lividans as a valuable host to produce M. tuberculosis proteins with vaccine and diagnostic potential.

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RESUMO

BACKGROUND: Streptokinase (SK) is a potent plasminogen activator with widespread clinical use as a thrombolytic agent. It is naturally secreted by several strains of beta-haemolytic streptococci. The low yields obtained in SK production, lack of developed gene transfer methodology and the pathogenesis of its natural host have been the principal reasons to search for a recombinant source for this important therapeutic protein. We report here the expression and secretion of SK by the Gram-positive bacterium Streptomyces lividans. The structural gene encoding SK was fused to the Streptomyces venezuelae CBS762.70 subtilisin inhibitor (vsi) signal sequence or to the Streptomyces lividans xylanase C (xlnC) signal sequence. The native Vsi protein is translocated via the Sec pathway while the native XlnC protein uses the twin-arginine translocation (Tat) pathway. RESULTS: SK yield in the spent culture medium of S. lividans was higher when the Sec-dependent signal peptide mediates the SK translocation. Using a 1.5 L fermentor, the secretory production of the Vsi-SK fusion protein reached up to 15 mg SK/l. SK was partially purified from the culture supernatant by DEAE-Sephacel chromatography. A 44-kDa degradation product co-eluted with the 47-kDa mature SK. The first amino acid residues of the S. lividans-produced SK were identical with those of the expected N-terminal sequence. The Vsi signal peptide was thus correctly cleaved off and the N-terminus of mature Vsi-SK fusion protein released by S. lividans remained intact. This result also implicates that the processing of the recombinant SK secreted by Streptomyces probably occurred at its C-terminal end, as in its native host Streptococcus equisimilis. The specific activity of the partially purified Streptomyces-derived SK was determined at 2661 IU/mg protein. CONCLUSION: Heterologous expression of Streptococcus equisimilis ATCC9542 skc-2 in Streptomyces lividans was successfully achieved. SK can be translocated via both the Sec and the Tat pathway in S. lividans, but yield was about 30 times higher when the SK was fused to the Sec-dependent Vsi signal peptide compared to the fusion with the Tat-dependent signal peptide of S. lividans xylanase C. Small-scale fermentation led to a fourfold improvement of secretory SK yield in S. lividans compared to lab-scale conditions. The partially purified SK showed biological activity. Streptomyces lividans was shown to be a valuable host for the production of a world-wide important, biopharmaceutical product in a bio-active form.

RESUMO

La disfemia es una enfermedad que se cree debida a diversos factores etiológicos siendo la organicidad uno de ellos. El objeto de este estudio es investigar esta teoría, mediante el uso de estudio electroencefalográficos, registrados en un mapa cerebral. Se estudiaron un grupo apareado por edad y un grupo de pacientes disfémicos sin patología neurológica o problema de comunicación humana agregado, con un rango de edad de 5 a 18 años clasificados en tres subgrupos, de 5 a 9, de 10 a 14 y de 15 a 18 años. El mapeo cerebral fue practicado en ambos grupos bajo tres condiciones (ojos abiertos, ojos cerrados y post-hiperventilación) y los resultados se registraron en una base de datos el equipo. Como único hallazgo, se encontró en los histogramas disminución en el pico de frecuencia de alfa con promedio de 0.8 a 0.9 Hz en el subgrupo de 10 a 14 años y de 0.9 a 1.0 Hz en el subgrupo de 15 a 18 años de pacientes disfémicos, comparados con el grupo control. Aunque esto apoyaría la teoría de organicidad, se debe considerar que es solo un dato inespecífico que no puede ser indicativo de daño a mecanismos conocidos

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