RESUMO
It was designed and characterized a reporter system to be captured by antibodies bound to ELISA plates. The system was designed with the rK346 from Leishmania infantum, a highly antigenic and specific protein. The rK346 was coupled to the horseradish peroxidase C (HRPc) from Armoracia rusticana using glutaraldehyde or sulfo-SMCC. Glutaraldehyde conjugation was performed in two steps. Separation of conjugates was carried out using a Sepharose S-200 in size exclusion chromatography (SEC); fractions were analyzed via HRPc activity and through ELISA plates sensitized with polyclonal anti-rK346 IgG purified from rabbit serum. A heterogeneous population of conjugates rK346-HRPc was obtained with molecular weights ranging between 109.7 ± 16.5 to 67.6 ± 10.1 kDa; with rK346-HRPc stoichiometries of 1:2; 2:1; 3:1; and 2:2. Conjugation using sulfo-SMCC was carried out first by introducing -SH groups onto the HRPc using the SATA reagent and the antigen was modified with sulfo-SMCC during 45 min. Separation and analysis of conjugates was performed similarly as with glutaraldehyde, resulting in a heterogeneous population of conjugates rK346-HRPc with molecular weights between 150.5 ± 22.6 to 80.0 ± 12.0 kDa; with rK346-HRPC stoichiometries of 2:1; 1:2; 2:2; and 1:3, with an increased conjugation efficiency in comparison with glutaraldehyde. This enables sulfo-SMCC to be used as a potential reagent for coupling the antigen to the HRPc, to design an economic, specific and easy method to apply as a reporter system, available to assess individuals at risk and/or at early and late stages of visceral leishmaniasis.
Se diseñó y caracterizó un sistema reportero para ser capturado por anticuerpos enlazados a placas de ELISA. El sistema fue diseñado con una proteína altamente antigénica y específica, la rK346 de Leishmania infantum. La rK346 fue acoplada a la peroxidasa C de rábano picante (HRPc) de Armoracia rusticana usando glutaraldehido o sulfo-SMCC. La conjugación con glutaraldehido fue realizada en dos pasos. La separación de los conjugados fue llevada a cabo a través de una cromatografía de exclusión molecular sefarosa S-200 (CES), las fracciones fueron analizadas midiendo la actividad HRPc y por placas ELISA sensibilizadas con inmunoglobulina G policlonal anti-rK346, purificada desde suero de conejo. Se obtuvo una población heterogénea de conjugados rK346-HRPc en un rango de pesos moleculares entre 109,7 ± 16,5 a 67,6 ± 10,1 kDa; con estequiometria rK346-HRPc de 1:2; 2:1; 3:1; y 2:2. La conjugación usando sulfo-SMCC se llevó a cabo primero introduciendo grupos -SH en la HRPc usando el reactivo SATA; el antígeno se modificó con sulfo-SMCC. La separación y el análisis de los conjugados se realizaron de forma similar que con el glutaraldehido, resultando en una población heterogénea de conjugados rK346-HRPc con un rango de pesos moleculares entre 150,5 ± 22,6 a 80,0 ± 12,0 kDa; con estequiometria rK346-HRPC de 2:1; 1:2; 2:2 y 1:3, y con una eficiencia de conjugación incrementada en comparación con glutaraldehido. De esta forma, se habilitó al sulfo-SMCC como un reactivo potencial para acoplar antígenos a la HRPc, como método para el diseño de un sistema reportero económico, especifico y fácil de aplicar, útil en la evaluación de individuos en riesgo y/o en estados tempranos o avanzados de leishmaniasis visceral.
Assuntos
Anticorpos Antiprotozoários/isolamento & purificação , Leishmania infantum/imunologia , Peroxidase do Rábano Silvestre , Antígenos de Protozoários , ImunoconjugadosRESUMO
Constituents of the glycosomal membrane from Leishmania mexicana should play a critical role in the coordination of metabolic processes occurring in the cytosol and those compartmentalized within glycosomes. We have made an inventory of glycosomal membrane-associated proteins using approaches specific for enriching both integral and peripheral membrane proteins. Surprisingly, 70% of the proteins were recovered in the hydrophobic fraction of membranes solubilized with Triton X-114, while 20% were present in the soluble fraction obtained upon treatment with Na2CO3. 14 major polypeptides, ranging in molecular weight from 65 to 16 kDa, were found to be associated with the membrane, nine of them behaving as integral membrane proteins. Assessment of their topology in the membrane indicated that the polypeptides of 56, 50, 46 and 32 kDa have no domains exposed to the cytosol. The 50 kDa protein is the most abundant one of the glycosomal membrane, where it is peripherically located at the matrix face. The major phospholipids of glycosomal membranes are phosphatidyl-ethanolamine, phosphatidyl-choline and phosphatidyl-serine, with smaller proportions of sphingomyelin and phosphatidyl-inositol. The sterols found were of 5-dehydroepisterol, ergosta-5,7,24(24(1))-trien-3ß-ol, and also their precursors, consistent with the notion that these organelles are involved in de novo biosynthesis of sterols in trypanosomatids.