The membranous spherule outer wail (SOW) isolated from liquid cultures of Coccidioides immitis has been shown to elicit reactivity with human anti-Coccidioides antibody by immunofluorescence and the immunodiffusion-tube precipitin assay. The serologically reactive components were extracted from SOW with the nonionic detergent N-octyl-o-D-glucopyranoside (OG). The OG-soluble fraction of SOW was shown to be reactive with immunoglobulin G in 25 serum samples from coccidioidomycosis patients by an enzyme-linked immunosorbent assay. The isolated SOW and OG-soluble fraction of SOW were also demonstrated to be capable of eliciting lymphocyte blastogenesis. The antigenic and protein compositions of the OG-soluble fraction were examined by two-dimensional immunoelectrophoresis and sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), respectively. Two antigens which were extracted from SOW were identified as antigens 2 and CS on the basis of the coccidioidin-anticoccidioidin reference system. The latter was isolated earlier and shown to correspond to a molecular mass (Mr) of 19 x 103 by SDS-PAGE under reducing conditions. This same electrophoresis band was shown to be reactive with sera from coccidioidomycosis patients by immunoblot analysis. One other SDS-PAGE component of the OG-soluble fraction of SOW with an M, of 66 x 103 was shown to be reactive with sera from patients by immunoblot analysis. The SOW of C. immitis represents an important reservoir of immunoreactive wall components which has not previously been reported.
Diagnosis of coccidioidomycosis largely depends on serologic tests. In this investigation, the enzyme-linked immunosorbent assay (ELISA) was used to detect patient immunoglobulin M (IgM) precipitin antibody binding to a 120-kilodalton (kDa) fraction previously isolated from an alkali-soluble, water-soluble extract of the arthroconidial wall and mycelial culture filtrate plus toluene lysate of Coccidioides immitis. Results of the serologic response to this tube precipitin antigen (TP-Ag) in the ELISA correlated well with results of immunodiffusion assays of 30 serum samples from patients. Immunoelectron microscopic examinations of arthroconidia and spherules were performed with patient IgM precipitin antibodies isolated from sera eluted over a solid-phase immunosorbent column containing the purified 120-kDa TP-Ag. The antibody probe located the 120-kDa TP-Ag on the walls of in vitro-grown arthroconidia and spherules. Pronase digestion and heating (100°C, 5 min) had no apparent effect on the activity of the 120-kDa TP-Ag, while periodate oxidation resulted in total loss of its immunodiffusion-TP activity. Analysis of the carbohydrate composition of the TP-Ag revealed xylose, 3-0-methylmannose (3-0-MM), mannose, galactose, and glucose. Competitive inhibition ELISAs were used to demonstrate that 3-0-MM is largely responsible for the reactivity of IgM precipitin antibodies with the 120-kDa TP-Ag. Synthetic 3-0-MM may be a useful probe for detection of anti-Coccidioides precipitin antibodies in the ELISA.
Three antigens with proteolytic activity have been isolated from crude, water-soluble fractions of the saprobic phase of the fungal pathogen Coccidioides immitis. Two proteinases, identified in our immunoelectrophoresis reference system as Agll and AgCS, were isolated from the soluble conidial wall fraction (SCWF). Agll was previously shown to be a serine proteinase and was characterized in this study as a 60-kilodalton (kDa) fraction by gel filtration (GF). The purified proteinase demonstrated little or no reactivity with 21 serum samples from coccidioidomycosis patients in the enzyme-linked immunosorbent assay; this may be due to limited presentation of this antigen to the host during the course of coccidioidomycosis. AgCS was separated by GF chromatography into two fractions identified by molecular masses of 39 and 19 kDa. Most proteolytic activity was shown by substrate gel electrophoresis to be associated with the lower-molecular-mass fraction. AgCS was reactive with 18 of the 21 serum samples and shown to be the major component of a heat-stable antigen previously reported to be immunospecific for C. immitis. The third antigen with proteolytic activity was isolated from the 5-day mycelial culture filtrate and identified by GF as a 56-kDa fraction. Uniformly high levels of immunoreactivity between 18 of the 21 patient sera and the 56-kDa antigen were demonstrated. Antigens with proteolytic activity may play important roles in fungus-host interactions as well as morphogenesis of the pathogen.
The principal mechanism of resistance to coccidioidomycosis in experimental animals has been reported to be T-cell-mediated immunity. We have generated a Coccidioides immitis antigen-specffic murine T-cell line to identify specific macromolecules capable of eliciting an immune mouse T-cell proliferative response. The murine T cells were stimulated in vitro with a soluble conidial wall fraction (SCWF), which has been previously characterized by humoral and cellular immunoassays. The SCWF was separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electrotransferred to a nitrocellulose membrane, and the stained blot was cut into seven pieces based on the molecular size of the SCWF components. The nitrocellulose membrane strips were converted into antigen-bearing particles and tested in a T-cell proliferation assay.Antigenic components of the SCWF in the molecular size range of 43 to 66 kDa were identified as the most immunoreactive. In a parallel study, we used a cDNA expression library derived from mRNA of the mycelial phase of C. immitis, which was constructed in lambda gtll to identify clones that encoded T-cell-reactive fusion proteins (FPs). The cDNA library was screened by using anti-SCWF rabbit serum, and the FPs expressed in Escherichia coli were isolated and tested for T-cell response in the same manner as the SCWF components. The nucleotide sequence of a 0.2-kb cDNA insert encoding a protein which elicited vigorous T-celi response was determined. The isolated cDNA insert hybridized to a single 1.9-kb mRNA band in a Northern blot of the total RNA fraction of the mycelial phase of C. immitis. Antibody with affinity for the T-cell-reactive FP was isolated from anti-SCWF rabbit serum by solid-phase immunoadsorption. The FP-specific antibody reacted with a 47-kDa polypeptide in Western blots (immunoblots) of the SCWF. The same antibody preparation was used for immunoelectron microscopy to show that the FP was localized in the walls of arthroconidia and spherules of C. immitis. Attempts to clone and sequence the entire gene which encodes the T-cell-reactive protein are under way. The results of this study should lead to the determination of the complete structure of an important T-cell-stimulating antigen of C. immitis.
A chymotrypsinlike serine proteinase of Coccidioides immitis with an estimated molecular size of 34 kDa has been shown by immunoelectron microscopy to be associated with the walls of the parasitic cells of this human respiratory pathogen. The proteinase has been suggested to play a role in spherule development. We report the isolation of a 1.2-kb cDNA from an expression library of C. immitis constructed in the XZAP II phage vector. The cDNA is suggested to encode the 34-kDa protein. We demonstrate identity between segments of the deduced amino acid sequence of the open reading frame of the 1.2-kb cDNA and three distinct sequences obtained from cyanogen bromide cleavage peptides of the purified proteinase. The occurrence of N-glycosyl linkage sites in the deduced sequence of 309 amino acids of the open reading frame (ORF) correlates with our identification of such linkage sites in the native glycosylated proteinase. A protein encoded by an 800-bp fragment of the 1.2-kb cDNA, which was produced by transformed Escherichia coli XL1-Blue, was recognized by the anti-34-kDa protein antibody in a Western blot (immunoblot). Northern (RNA) hybridization of total poly(A)-containing RNA of C. immitis with the labeled 1.2-kb cDNA clone revealed a single band of approximately 1.75 kb. Partial homology was demonstrated between the deduced amino acid sequence of the ORF (927 bp) and reported sequences of a-chymotrypsin and chymotrypsinogens. Expression of the proteinase gene was examined by Northern dot blot analysis of total RNA from different stages of parasitic cell development in C. immitis. Maximum levels of specific mRNA were detected during early endospore wall differentiation. The 34-kDa proteinase appears to be concentrated in walls of the parasitic cells at stages of active growth. We suggest that the enzyme may participate in wall plasticization and/or intussusception or in cell wall turnover.
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