ROSA MARIA CHURA CHAMBI
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Artigo IPEN-doc 29049 Leptolysin, a Leptospira secreted metalloprotease of the pappalysin family with broad-spectrum activity2022 - COURROL, DANIELLA dos S.; SILVA, CRISTIANE C.F. da; PRADO, LUAN G.; CHURA-CHAMBI, ROSA M.; MORGANTI, LIGIA; SOUZA, GISELE O. de; HEINEMANN, MARCOS B.; ISAAC, LOURDES; CONTE, FERNANDO P.; PORTARO, FERNANDA C.V.; RODRIGUES-DA-SILVA, RODRIGO N.; BARBOSA, ANGELA S.Extracellular proteolytic enzymes are produced by a variety of pathogenic microorganisms, and contribute to host colonization by modulating virulence. Here, we present a first characterization of leptolysin, a Leptospira metalloprotease of the pappalysin family identified in a previous exoproteomic study. Comparative molecular analysis of leptolysin with two other pappalysins from prokaryotes, ulilysin and mirolysin, reveals similarities regarding calcium, zinc, and arginine -binding sites conservation within the catalytic domain, but also discloses peculiarities. Variations observed in the primary and tertiary structures may reflect differences in primary specificities. Purified recombinant leptolysin of L. interrogans was obtained as a ~50 kDa protein. The protease exhibited maximal activity at pH 8.0 and 37°C, and hydrolytic activity was observed in the presence of different salts with maximum efficiency in NaCl. Substrate specificity was assessed using a small number of FRET peptides, and showed a marked preference for arginine residues at the P1 position. L. interrogans leptolysin proteolytic activity on proteinaceous substrates such as proteoglycans and plasma fibronectin was also evaluated. All proteins tested were efficiently degraded over time, confirming the protease´s broad-spectrum activity in vitro. In addition, leptolysin induced morphological alterations on HK-2 cells, which may be partially attributed to extracellular matrix (ECM) degradation. Hemorrhagic foci were observed in the dorsal skin of mice intradermally injected with leptolysin, as a plausible consequence of ECM disarray and vascular endothelium glycocalyx damage. Assuming that leptospiral proteases play an important role in all stages of the infectious process, characterizing their functional properties, substrates and mechanisms of action is of great importance for therapeutic purposes.Artigo IPEN-doc 28852 Recombinant PilS2022 - MUNHOZ, DANIELLE D.; SILVA, JESSIKA C.A.; FREITAS, NATALIA C.; IWAI, LEO K.; AIRES, KARINA A.; OZAKI, CHRISTIANE Y.; SOUZA, CRISTIANE S.; ROCHA, LETICIA B.; SILVA, MIRIAM A.; HENRIQUE, IZABELLA M.; ELIAS, WALDIR P.; CARVALHO, ENEAS; MORGANTI, LIGIA; CHURA-CHAMBI, ROSA M.; PIAZZA, ROXANE M.F.Pil-fimbriae is a type IV pili member, which is a remarkably versatile component with a wide variety of functions, including motility, attachment to different surfaces, electrical conductance, DNA acquisition, and secretion of a broad range of structurally distinct protein substrates. Despite the previous functional characterization of Pil, more studies are required to understand the regulation of Pil expression and production, since the exact mechanisms involved in these steps are still unknown. Therefore it is extremely important to have a protein with the correct secondary and tertiary structure that will enable an accurate characterization and a specific antisera generation. For this reason, the aim of this work was to generate potential tools for further investigations to comprehend the mechanisms involved in Pil regulation and its role in pathogenic E. coli infections with the obtaining of a precise native-like recombinant PilS and the corresponding antisera. The pilS gene was successfully cloned into an expression vector, and recombinant PilS (rPilS) was efficiently solubilized and purified by metal affinity chromatography. Protein characterization analyses indicated that rPilS presented native-like secondary and tertiary structures after the refolding process. The generated anti-rPilS sera efficiently recognized recombinant and native proteins from atypical enteropathogenic E. coli strains.Artigo IPEN-doc 20121 Improving the therapeutic potential of endostatin by fusing it the BAX BH3 death domain2014 - CHURA-CHAMBI, R.M.; BELLINI, M.H.; JACYSYN, J.F.; ANDRADE, L.N.; MEDINA, L.P.; PRIETO da SILVA, A.R.B.; AMARANTE-MENDES, G.P.; MONGANTI, L.Endostatin (ES) inhibits angiogenesis, reducing tumor growth in animal models. However, it has low therapeutic effect in human clinical trials. BAX is a member of the BCL-2 family of proteins; its proapoptotic (BH3) domain interacts with other members of the family in the cytoplasm, to induce apoptosis. Here, we fused the BAX BH3 domain with murine ES, to enhance ES potency. Endothelial cells specifically internalize the fusion protein ES-BAX. The presence of the BAX domain enhances endothelial cell death by apoptosis by 1.8-fold and diminishes microvessel outgrowth in the rat aortic ring assay by 6.5-fold. Daily injections of 15 lg of ES-BAX/g in tumor-bearing mice reduce tumor weight by 86.9% as compared with ES-treated animals. Co-immunoprecipitation assays confirmed that ES-BAX interacts with members of the BCL-2 family. Also, ES interacts with BCL-2, BCL-XL, and BAK in endothelial cell lysates, suggesting a potential new mechanism for the apoptosis induction by ES. The superiority of the ES-BAX antiangiogenic effect indicates that this fusion protein could be a promising therapeutic alternative to treat cancer.