ABSTRACT
ABSTRACT Chagas disease (CD) is a chronic tropical disease caused by Trypanosoma cruzi , affecting about 8 million people in Latin America. The lectin pathway (LP) of the complement system is one of the first lines of host defense in the response against T. cruzi , and can continue to be activated in chronic infection due to the escape of the parasite to its action. Although some components of this pathway have been investigated in CD, there are no reports on its activation in patient serum. In this context, our objective was to evaluate the activation of LP in chronic chagasic patients and controls by the detection of the C4 component, using the direct ELISA assay. For this purpose, serum of 80 patient with chronic CD (clinical forms: asymptomatic n=17; symptomatic n=63; cardiac n=45; cardio digestive n=13; digestive n=5) followed at the Ambulatory of Attention to Chagasic Patients (HC/UFPR) and 80 healthy controls (donors of the Blood Bank of HC) were evaluated regarding the evaluation of the LP. The results showed that LP activation by mannose-binding lectin (MBL) was found reduced while activation by ficolins was increased in patients with CD when compared to controls. The same results were observed when the patients were categorized according to the indeterminate and symptomatic clinical forms. We conclude that the detection of the C4 component by ELISA is an efficient methodology to assess LP activation in serum from patients with chronic CD, enabling to differentiate the activation profile between patients and controls..
RESUMO A doença de Chagas (DC) é uma doença tropical crônica causada pelo Trypanosoma cruzi, atingindo cerca de 8 milhões de pessoas na América Latina. A via das lectinas (VL) do sistema complemento é uma das primeiras linhas de defesa na resposta imunológica contra a infecção pelo T. cruzi, e pode continuar sendo ativada na infecção crônicadevido ao escape do parasito à sua ação. Embora alguns componentes dessa via tenham sido investigados na DC, não existem relatos sobre sua ativação em soro de pacientes. Neste contexto, nosso objetivo foi avaliar a ativação da VL no soro de pacientes com DC crônica e controles pela detecção do componente C4 empregando a técnica de ELISA. Para isso, amostras de soro de 80 pacientes com DC crônica (formas clínicas: indeterminada n=17; sintomática n=63; cardíaca n=45; cardiodigestiva n=13; digestiva n=5) atendidos no Ambulatório de Atenção ao Paciente Chagásico (HC/UFPR) e 80 controles saudáveis (doadores do Banco de Sangue do HC) foram avaliados quanto a ativação da VL. Os resultados demonstraram que a ativação da VL pela lectina ligante de manose (MBL) encontra-se reduzida, enquanto que a ativação pelas ficolinas está aumentada em pacientes com DC quando comparados aos controles. Os mesmos resultados foram observados quando os pacientes foram categorizados quanto às formas clínicas indeterminada e sintomática. Concluímos que a detecção do componente C4 por ELISA é uma metodologia eficiente para avaliar a ativação da VL em soro de pacientes com DC crônica possibilitando diferenciar o perfil de ativação entre pacientes e controles.
ABSTRACT
Introduction: MASP-2 is a mannose blinding lectin associate to serine protease in cerebrospinal fluid and its dynamics through the blood brain barrier is unknown. Objective: To describe MASP-2 diffusion pattern from blood to cerebrospinal fluid. Methods: A transversal observational prospective study was performed 56 control samples of cerebrospinal fluid and serum were employed. ELISA measured MASP-2. Two groups were made: control patients without organic brain disease with normal cerebrospinal fluid and normal barrier function and patients without inflammatory diseases with a blood cerebrospinal fluid barrier dysfunction. Results: MASP-2 concentration in cerebrospinal fluid increase with augment the Q Albumin. QMASP-2 vs. Q Albumin saturation curve indicates that MASP-2 is interacting with other molecules in the subarachnoid environment. The higher inter-individual variation of cerebrospinal fluid MASP-2 of the control compared to the serum MASP-2 indicates that MASP-2 is a protein derived from blood. Conclusions: MASP-2 in CSF is predominantly blood-derived. The saturation curve demonstrates that MASP-2 interacts with the starters of the lectin pathway like mannose binding lectin, ficolins and collectin LK(AU)
Introducción: MASP2 es una proteína de unión a manosa asociada a una proteasa de serina encontrada en la periferia, pero puede pasar a líquido cefalorraquídeo. Sin embargo, su dinámica a través de la barrera sangre-líquido cefalorraquídeo es aún desconocida. Objetivo: Describir la difusión del MASP-2 desde la sangre al líquido cefalorraquídeo. Métodos: Se realiza estudio observacional prospectivo de corte transversal donde se emplearon 56 muestras de suero y líquido cefalorraquídeo. Fue seleccionado un grupo control con pacientes sin enfermedad orgánica del cerebro, con líquido cefalorraquídeo y función de barrera normal y otro grupo de pacientes sin enfermedades inflamatorias del cerebro con disfunción de barrera sangre-líquido cefalorraquídeo. Resultados: La concentración de MASP-2 en líquido cefalorraquídeo aumentó con el incremento de la Q Albúmina. La curva de saturación de Q MASP-2 contra la Q Albúmina indicó que el MASP-2 se encuentra interactuando con otras moléculas en el espacio subaracnoideo. El aumento del coeficiente de variación individual de MASP-2 en líquido cefalorraquídeo de los controles comparado con el MASP-2 en suero indicó que el MASP-2 es una proteína derivada de la sangre. Conclusiones: La producción de MASP-2 en líquido cefalorraquídeo es predominantemente derivada de la sangre. La curva de saturación demostró que el MASP-2 interactúa con los iniciadores de la vía de las lectinas como lectina unida a manosa, las ficolinas y la colectina LK(AU)
Subject(s)
Humans , Enzyme-Linked Immunosorbent Assay , Blood-Brain Barrier , Cerebrospinal Fluid/physiology , Mannose-Binding Protein-Associated Serine Proteases , Mannose , Cross-Sectional Studies , Prospective StudiesABSTRACT
Introduction: Quincke´s Scholarship deals with themes related to neuroinmunology and the complement system. Objective: Describe the most recent advances of the Vll Edition of Quincke´s Scholarship. Methods: Publications pertaining to Quincke´s Scholarship were selected and revised from the work group of the Central Lab of Cerebrospinal fluid (LABCEL). Results: The principal topic was the C1q protein; initiator of the clasic complement pathway. From the analisis of the molecular concentration of this protein, its transference and the correlations between the concentration of C1q protein in cerebrospinal fluid (LCR) and the quotient of albumin (QAlb) between LCR and plasma it is hypothesized that an intratecal synthesis of the C1q in patients with a disfunction of the blood-brain barrier. The most recently discovered pathway in the activation of the complement is the lectin pathway. The diffusion of the MASP-3 protein from blood to LCR is proof that the MASP-3 is synthesized in the leptomeninges. The reibergram is useful to evaluate the inmune response in patients with: neurological manifestations caused by the dengue virus, and patients with multiple sclerosis. Conclusions: The Vll Edition of Quincke´s Scholarship dealt with C1q protein and recently discovered themes of the lectin pathway and the use of the reibergram(AU)
Subject(s)
Humans , Cerebrospinal Fluid/microbiology , Molecular ConformationABSTRACT
Introduction: Defining mechanisms governing the diffusion from blood to cerebrospinal fluid is central to understanding immune function in the central nervous system. Objective: To describe the dynamics of diffusion of the lectin pathway components from blood to cerebrospinal fluid. Methods: It was organized the information available in PubMed database and of papers from journals, and abstract books from international congresses belongs mainly to Cuban authors all about the lectin pathway of complement including manan-binding lectin (MBL) and ficolins complexed with the MBL-associated serine proteases (MASP2), and of other components like MASP3, Map44 as regulatory components and the different starters like MBL, ficolins and CLLK. Results: All the lectin pathways component are blood derived proteins but at the same time it could be synthesized intrathecally. Most of the protein can be transferred from blood to cerebrospinal fluid in different aggregation forms and some of them can be described as a consuming curve. The control mechanism of regulation the lectin pathway can be followed by molecules as MASP3 and Map44. Conclusions: The under- constructed lectin pathway of the complement system required not only the available information in different journals. It had to be completed by reviewing the congress abstract book and congress website of the last years(AU)
Subject(s)
Humans , Cerebrospinal Fluid/physiologyABSTRACT
Dentro de la respuesta inmune humoral se encuentran componentes que mantienen la homeostasis de los organismos a través del control de agentes patógenos por medio de la opsonización, quimiotaxis de células fagocíticas facilitando el proceso de eliminación de lo extraño o sin su acompañamiento, en el caso de la formación de poros en la membrana celular. A un grupo de este conjunto de componentes de origen molecular proteico se denominósistema del complemento, el cual posee tres vías de activación (Clásica, Alternativa y Lectinas), funciona comoanafilatoxinas, reguladores y receptores. La presente revisión tiene como objetivo discutir acerca de los diferentes componentes del sistema del complemento en la escala animal enfocándose principalmente en peces teleósteos y mamíferos, como organismos modelos en busca de elucidar sus diferencias, homologías y respuestas.
Within the humoral immune response can be found components that maintain an organisms homeostasis viacontrol of pathogenic agents using opsonization, chemotaxis of phagocytic cells which facilitates the processof elimination of foreign bodies, or in its absence, the formation of pores in the cellular membrane. One of these groups of components, of protein origin, is referred to as the complement system, which has 3 means of activation (Classic, Alternative, and Lectins) and functions as anaphylactic toxins, regulators and receptors. The aim of this review is to discuss the different components of the complement system in the animal kingdom, focusing principally on teleost fish and mammals, as model organisms in the search to elucidate their differences, homologies, and answers.
Dentro da resposta imune humoral encontram-se componentes que mantém a homeostase do organismo através docontrole de patógenos, por opsonização, quimiotaxia de células fagocíticas que facilita o processo de eliminaçãode corpos estranhos, ou na sua ausência, a formação de poros na membrana celular. Este conjunto de componentes moleculares de origem protéica são chamados de sistema complemento, que tem três vias de ativação (clássica, alternativa e lectinas), funciona como anafilatoxinas, reguladores e receptores. Esta revisão tem como objetivo discutir os vários componentes do sistema complemento na escala animal focando principalmente em peixes teleósteos e mamíferos como organismos modelos na busca de elucidar suas diferenças, homologias e respostas.