Hacia el desarrollo de una vacuna en contra de la cisticercosis porcina basada en la paramiosina de Taenia solium

La paramiosina de Taenia solium (TPmy) es un antígeno inmunodominante de la cisticercosis humana y porcina. Se trata de una proteína de 100 kDa con una estructura alfa-hélice superenrollada asociada al músculo y a estructuras tegumentarias del cisticerco. La TPmy tiene la propiedad de unirse al C1q e inhibir la cascada del complemento. La TPmy probablemente se une al C1q a través sus dominios tipo colágena y podría estar relacionada con una estrategia parasitaria para modular la respuesta inmune del huésped. En el hombre y en el ratón, la respuesta inmune humoral en contra de la TPmy está preferentemente dirigida hacia el extremo carboxilo terminal mientras que el extremo amino terminal de la TPmy induce una respuesta protectora celular de tipo Th1. Ensayos de protección en el modelo murino de cisticercosis en ratones inmunizados con fragmentos recombinantes de TPmy revelaron que el extremo amino terminal induce alrededor de 60% de protección en contra de un reto intraperitoneal con cisticercos de Taenia crassiceps. Ensayos preliminares de protección por inmunización génica revelaron que el extremo amino terminal de la TPmy clonado en un vector plasmídico con un promotor de citomegalovirus induce alrededor de 79% de protección, junto con plásmidos para la expresión de IL-12, sugiriendo que este tipo de inmunización con TPmy puede resultar en el desarrollo de una vacuna eficaz y económica en contra de la cisticercosis.

Taenia solium paramyosin (TPmy) is a prominent 100 kDa antigen in human and porcine cysticercosis. TPmy is an α-helical coiled coil protein present in muscle and tegumentary structures of T. solium cysticerci. TPmy has the property of binding C1q resulting in inhibition of the complement cascade. TPmy probably binds C1q through its collagen-like domains and could be involved in a parasite strategy to modulate host immune response. Humoral immune response against TPmy is preferentially directed against carboxyl terminal end in humans and mice, whereas amino terminal end of TPmy preferentially induces a Th1-related cellular immune response. Protection studies in murine model of cysticercosis showed that the amino terminal end fragment of TPmy induces approximately 60% protection against an i.p. challenge with Taenia crassiceps cysts when mice are immunized with recombinant fragments of TPmy. Initial protection studies using genetic immunization showed that amino terminal end fragment of TPmy cloned into a plasmid expression vector with a cytomegalovirus promoter, together with IL-12-expressing plasmids induced 79% protection, suggesting that this kind of TPmy-immunization might result in development of a cost-effective vaccine against cysticercosis.

Molecular biology of Entamoeba histolytica: a review

Amebiasis is one of the main causes worldwide of morbidity and mortality by parasites. Application of recombinant DNA technology to the study of Entamoeba histolytica is bringing new light into our understanding of this remarkable protozoan parasite and of the disease it causes. New achievements affect the way we approach many essential questions about E. histolytica, form the mechanism of its pathogenicity to the definition of E. hitolytica as a separate species from the nonpathogenic E. dispar. To give a single example, transfection of trophozoites is now possible and a new generation of studies taking advantage of this capability of manipulation is expected in the short term. Our goal with this review is to provide an updated and simple guide to the growing information on the molecular biology of E. histolytica

Protein uptake by cysticerci of Taenia Crassiceps

The internalization of host macromolecules to the vesicular fluid of T. crassiceps cysticerci was studied in vitro. Uptake of purified class G immunoglobulin was not significantly affected by the specificity of its antigen-recognition site and bovine serum albumin was internalized at a similar rate. Internalization was inhibited at low temperature, being optimal at 37ºC and saturation was accomplished only at a protein concentration in the culture medium over 12 mg/ml which is close to the physiological concentration of serum proteins in the host. Morphological studies using markers for adsorptive endocytosis allowed visualization of endocytic vesicles and tracking of their movement across the bladder wall tissue. Degradation of internalized proteins was observed at longer time of incubation, suggesting that proteins are later processed and that degraded host macromolecules can be nutrints for cysticerci. Quantification of this capability of internalization suggests that it might play a role in the in vivo removal of petentially damaging host macromelocules, such as antibodies or complement factors, from the host-prasite interface