Several monoclonal antibodies (Mabs) were raised against the L1 muscle stage (L1M) of Trichinella spiralis (Ts) and Trichinella pseudospiralis (Tp). Western blot analysis of various antigenic preparations established that Mabs described by different authors recognized 8 antigenic fractions (TSL1-TSL8) in crude extracts of infective larvae. The TSL1 fraction was immunodominant and present on the cuticle of different parasite stages. Mabs against Trichinella T5 (T5) and Ts were selected in order to extend the previous studies to another Trichinella phenotype. Only 35% of the selected Mabs recognized linear epitopes and 71% reacted with soluble or excretory-secretory antigens in a dot blot procedure and ELISA test. The targets of the Mabs were identified by immunoprecipitation with [35S]methionine-labelled L1M worm lysate. Mabs prepared from mice immunized with the whole parasite (T5) recognized a wider panel of antigens in different parasitic organs. Seven antigenic structures were distinguished on the cuticle and several epitopes were identified in the gut, haemolymph and stichocytes. Eleven antigenic groups were established according to their indirect immunofluorescence pattern on cross-sections of the worm. Monoclonal antibodies raised against Ts soluble antigen mainly recognized epitopes in stichocytes and on the cuticle surface. All the selected Mabs recognized T5 and Trichinella britovi (Tb) strengthening the link between these 2 species. Four Mabs were used to differentiate antigenic structures among 6 Trichinella phenotypes and to develop a new tool to follow gene flow within the Trichinella genus.
In serology, lack of specificity can generally be attributed to cross-reactions between different pathogens with antigens bearing similar epitopes. During seroepidemiologic surveys of contagious agalactia of sheep caused by Mycoplasma agalactiae infection, numerous sera were analyzed by enzyme-linked immunosorbent assay (ELISA). A few sera reacted with various antigens coated on plates, including the well with no antigen. This reactivity was not due to cross-reactions as initially suspected, and these multipositive sera were designated false-positive sera. Elimination of this false positivity was not possible by using covalent ELISA plates or different rabbit anti-sheep IgG conjugates. Only conjugates using monoclonal antibodies or protein G were efficient in elimination of false positivities without reducing the true specific positive titers. No false-positive sera have been observed since the implementation of protein G conjugates in the serologic diagnosis of contagious agalactia by ELISA for the past 2 years.
La technique d’immunofluorescence indirecte a permis d’établir un diagnostic de Toxoplasmose évolutive lors d’une enzootie abortive sévissant dans un troupeau caprin des Alpes-Maritimes.
Les résultats sérologiques obtenus démontrent l’intérêt de cette technique pour le dépistage rapide des avortements à Toxoplasmes chez les petits ruminants et pour l’étude épidémiologique de la maladie.
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