An ELISA was developed and evaluated as a method for detecting antibodies against glycosylated and deglycosylated histoplasmin (HMIN). Sera from patients with histoplasmosis, paracoccidioidomycosis, sporotrichosis, coccidioidomycosis, aspergillosis, cryptococcosis and healthy donors were tested by ELISA against purified, deglycosylated histoplasmin (ptHMIN) and compared with purified, native (i.e. glycosylated) histoplasmin (pHMIN). Although cross-reactivity was not abolished when ptHMIN was used in the test, it was reduced (pHMIN ELISA 93 % versus ptHMIN ELISA 96 %). However, there were statistically significant differences between the sensitivities of these two methods for the detection of antibodies (pHMIN ELISA 57 % versus ptHMIN ELISA 92 %; P , 0 . 001) and between the efficiency of the methods (pHMIN ELISA 83 % versus ptHMIN ELISA 95 %; P , 0 . 001). These parameters compare better than previously published data relating to the use of treated HMIN in diagnostic ELISAs. Some of the reactivities of serum samples were compared by immunoblotting using deglycosylated HMIN and by immunodiffusion using the crude antigen. The results demonstrated that cross-reactions with heterologous sera in both ELISAs could also be observed in immunoblotting and arose from shared protein epitopes. These data suggest that ELISA using deglycosylated HMIN is a very sensitive diagnostic method and, by using commercially available antigen, it can be easily standardized and performed faster than previous Western blot-based tests using the same antigen. It provides a useful adjunct to existing methods of diagnosis that could be applied even in situations where laboratory facilities were relatively limited.
INTRODUCTIONHistoplasmosis is a systemic fungal disease caused by Histoplasma capsulatum. The significance of histoplasmosis results from its worldwide distribution (Rios-Fabra et al., 1994;Wheat, 2001), its ability to mimic other serious disease entities (Goodwin et al., 1980;McKinsey et al., 1997) and its propensity to cause serious disseminated infection in immunocompromised patients (Bradsher, 1996;Goodwin et al., 1980;Wheat, 1996;Wheat & Kauffman, 2003).Definitive diagnosis has typically relied either on direct visualization of the organism in tissue and/or the isolation of the causative organism, which is time-consuming and lacking in sensitivity (Bullock, 1995;Kwon-Chung & Bennet, 1992;Wheat, 2001). The detection of patients' antibody responses offers a more rapid alternative to microbiological means of diagnosis, and the detection of host anti-H. capsulatum antibodies by immunodiffusion (ID) and complement fixation (CF) tests is often used (Bullock, 1995;Kaufman et al., 1997). Both the yeast and mycelial phases of the fungus produce a number of exoantigens in culture, the most important and characteristic being the H and M antigens. These two antigens are the primary immunoreactive constituents of histoplasmin (HMIN), the standard diagnostic reagent used in ID and CF for many years (Standard & Kaufman, 1976). However, it was...
