5 research outputs found

    “Features of two proteins of Leptospira interrogans with potential role in host-pathogen interactions”

    Get PDF
    Abstract\ud \ud \ud \ud Background\ud \ud Leptospirosis is considered a re-emerging infectious disease caused by pathogenic spirochaetes of the genus Leptospira. Pathogenic leptospires have the ability to survive and disseminate to multiple organs after penetrating the host. Leptospires were shown to express surface proteins that interact with the extracellular matrix (ECM) and to plasminogen (PLG). This study examined the interaction of two putative leptospiral proteins with laminin, collagen Type I, collagen Type IV, cellular fibronectin, plasma fibronectin, PLG, factor H and C4bp.\ud \ud \ud \ud Results\ud \ud We show that two leptospiral proteins encoded by LIC11834 and LIC12253 genes interact with laminin in a dose - dependent and saturable mode, with dissociation equilibrium constants (KD) of 367.5 and 415.4 nM, respectively. These proteins were named Lsa33 and Lsa25 (Leptospiral surface adhesin) for LIC11834 and LIC12253, respectively. Metaperiodate - treated laminin reduced Lsa25 - laminin interaction, suggesting that sugar moieties of this ligand participate in this interaction. The Lsa33 is also PLG - binding receptor, with a KD of 23.53 nM, capable of generating plasmin in the presence of an activator. Although in a weak manner, both proteins interact with C4bp, a regulator of complement classical route. In silico analysis together with proteinase K and immunoflorescence data suggest that these proteins might be surface exposed. Moreover, the recombinant proteins partially inhibited leptospiral adherence to immobilized laminin and PLG.\ud \ud \ud \ud Conclusions\ud \ud We believe that these multifunctional proteins have the potential to participate in the interaction of leptospires to hosts by mediating adhesion and by helping the bacteria to escape the immune system and to overcome tissue barriers. To our knowledge, Lsa33 is the first leptospiral protein described to date with the capability of binding laminin, PLG and C4bp in vitro.We are deeply indebted to Alexsander Seixas de Souza (Departamento de Parasitologia, Instituto Butantan, Sao Paulo, Brazil) for use of Confocal facilities and helpful discussion. This work was supported by FAPESP, CNPq and Fundaçao Butantan, Brazil; RFD and MLV have fellowships from FAPESP

    Leptospira interrogans interactions with the plasminogen/plasmin proteolytic system: analysis, characterization and possible implications for the infection.

    No full text
    A leptospirose é uma zoonose causada por bactérias patogênicas do gênero Leptospira. Apesar de sua importância, a patogênese e virulência permanecem não elucidadas. As leptospiras não apresentam proteases conhecidas de degradação de matriz extracelular, atividade crucial para a penetração e disseminação nos hospedeiros. Assim, foi proposta a investigação da interação de leptospiras com plasminogênio/plasmina e as implicações para a infecção. As leptospiras capturam plasminogênio na superfície, e este é convertido à plasmina por ativadores do hospedeiro. A plasmina associada propicia degradação de componentes de matriz extracelular, habilidade de penetração e evasão imune. Adicionalmente, as leptospiras estimulam a expressão de ativadores de plasminogênio e metaloproteases de matriz. Os resultados contribuem para o conhecimento do processo infeccioso das leptospiras, descrevendo um novo mecanismo de patogenicidade.Leptospirosis is a zoonosis caused by pathogenic bacteria from genus Leptospira. Despite its importance, the pathogenicity and virulence remain to be elucidated. The leptospires do not present known proteases able to degrade extracellular matrix, an activity essential for the penetration and dissemination within the hosts. Therefore, we proposed the investigation of the leptospiral interaction with plasminogen/plasmin and its implications for infection. Leptospires capture plasminogen on the surface, which is converted to plasmin by hosts activators. Surface-bound plasmin confers extracellular matrix components degradation, penetration ability and immune evasion. Additionally, leptospires stimulate plasminogen activators and matrix metaloproteases expressions. The results constitute one possible mechanism that contributes to the invasion process and the rapid dissemination of Leptospira

    Protein expression analysis of virulent and attenuated Leptospira interrogans.

    No full text
    A leptospirose é uma zoonose disseminada mundialmente, causada por bactérias do gênero Leptospira. A melhor maneira de contornar o problema é por de medidas preventivas, já que a contenção da proliferação de roedores é inviável e não há vacina eficaz disponível. Estratégias de genômica funcional têm identificado um grande número de proteínas a serem estudadas. Esse fato aliado a dados da literatura, que identificaram proteínas envolvidas na patogenicidade e que são expressas somente em condição de virulência, levou à proposição da utilização da proteômica para canalizar os estudos. A metodologia envolveu obtenção de extratos protéicos de leptospiras retiradas de animais infectados, sua separação por gel bidimensional, e identificação dos spots por espectrometria de massas. O objetivo central foi a identificação de proteínas expressas em bactérias virulentas e ausentes nas não-virulentas. A identificação dessas proteínas pode facilitar a busca de proteínas envolvidas na virulência e infecção da leptospirose. Adicionalmente, é um avanço no esclarecimento da biologia e patogenicidade das leptospiras, bem como para o reconhecimento de candidatos potenciais para a composição de vacinas e/ou métodos diagnósticos mais eficientes.Leptospirosis, one of the most spread zoonosis worldwide, is caused by bacteria of the genus Leptospira. Preventive measures are the best way to control the disease due to the difficulty to impair the proliferation of rodents and because no efficient vaccine is currently available. Functional genomics strategies have pointed a large number of proteins that could be important immunogens. This fact allied to published data reporting the identification of proteins involved in pathogenesis that are expressed only in virulent strains, led us to propose the use of proteomics as a tool to narrow down these studies. The methodology involved the preparation of protein extracts from tissuederived leptospires, separation by two-dimensional gel and identification of the spots by mass spectrometry. The central objective was to identify proteins expressed only in virulent bacteria. The identification of these proteins could help the search for proteins involved in virulence with a role during infection. Additionally, the data presented here represent a large step to clarify the biology and pathogenicity of leptospires, as well as the identification of potentially important vaccine candidates and/or proteins to compose more efficient diagnostic methods
    corecore