<Emphasis Type="Italic">Blastomyces Dermatitidis</Emphasis> Antigen Detection in Urine Specimens from Dogs with Blastomycosis Using a Competitive Binding Inhibition ELISA

A competitive binding inhibition enzyme linked immunosorbent assay (ELISA) was used to detect Blastomyces dermatitidis antigens in urine specimens from dogs with blastomycosis. Sera from rabbits immunized with B. dermatitidis killed whole yeast cells were used as the primary antibody in the competitive ELISA. This initial study was performed to determine if B. dermatitidis antigen detection was possible and to test the efficacy of the rabbit sera as a primary antibody. An indirect ELISA was also performed to compare antigen detection in urine to antibody detection in the sera of the infected dogs. The results indicate 100% (36/36 specimens) detection of both antigen and antibody. Cross reactivity with Histoplasma capsulatum, as well as non-specific binding with the normal urine specimens, was observed with the competitive binding inhibition ELISA.     

In situ localization of antigens of Histoplasma capsulatum using colloidal gold immune electron microscopy

Histoplasma capsulatum contains multiple antigens, among them the H antigen and M antigen, which are useful in serologic testing for histoplasmosis. We prepared 7 mouse monoclonal antibodies (5 IgG, 2 IgM) to histoplasmin, and compared these with polyclonal histoplasmin antibodies raised in rabbits and mice. Both monoclonal and polyclonal antibodies were high titered by ELISA. Colloidal gold immune electron microscopy (CGIEM) showed that polyclonal antibodies to histoplasmin or H antigen bound at multiple sites in the cell wall, cytoplasm, and nucleus of Histoplasma yeast cells. In contrast, antibodies to M antigen selectively label the cell membrane and antibodies to alkali soluble cell wall antigen label only the cell wall. Polyclonal antibodies cross reacted extensively with other fungi, both by ELISA and CGIEM. Monoclonal antibodies stained only cytoplasmic epitopes, but also cross reacted with other fungi by electron microscopy. Only periodate treated H antigen elicited polyclonal antibodies which were more specific than those of untreated H antigen or histoplasmin.     

Detection of an antigenic cell wall layer inHistoplasma capsulatum

Histoplasma capsulatum yeast cells have been studied by immunoelectron microscopy using rabbit polyclonal antisera and a biotin-avidin-peroxidase detection system. An antigenic surface layer has been visualized in the cell wall of immunostained organisms. This layer was not seen in samples prepared by standard electron microscopic methods or in negative controls used with the immunocytochemical technique. Without immunostaining the cell wall ofHistoplasma appeared almost transparent. In contrast, after immunoperoxidase staining the cell wall was conspicuous, bounded by the darkly stained outer layer. This electron dense layer, appeared to be a reservoir of surface antigens that were recognized by anti-Histoplasma antibodies.Abbreviations CHHA Cystine-heart-hemoglobin agar - PBS phosphate buffered saline - Ig immunoglobulin - TBS Tris buffered saline - DAB 3,3-diaminobenzidine tetrachloride - FITC fluorescein isothiocyanate - M199 tissue culture medium 199, according to Morgan et al. (1950)     

Induction of novel protein synthesis by opsonizedHistoplasma capsulatum ingested by murine peritoneal macrophages

It is known thatHistoplasma capsulatum can resist the intraphagolysosomal environment and multiply inside macrophages. This resistance can be closly related to its pathogenicity. The mechanism of this resistance has been investigated, but it has not been clarified as yet. To learn about the metabolic condition of the yeast-form ofH. capsulatum (isolates G217B and CDC 105) when ingested by macrophages, we investigated protein synthesis by ingestedH. capsulatum with [³⁵S]-methionine labeling. Cycloheximide at 5 to 10 µg/ml was used to preferentially inhibit macrophage uptake of [³⁵S]-methionine without affectingH. capsulatum uptake. Protein synthesis byH. capsulatum in medium alone served as a positive control. The negative control consisted of macrophages with ingested heat-killedH. capsulatum. Analysis of cytosols with SDS-PAGE and fluorography disclosed that, respectively for G217B and CDC 105, ingestedH. capsulatum synthesized 4 and 5 novel proteins, increased the synthesis of 9 and 17 proteins and decreased the synthesis of 9 and 10 constitutive proteins. Ten of these novel or increased proteins were apparently common to both strains. These metabolic changes in ingestedH. capsulatum could reflect its adaptation to the intraphagolysosomal environment of macrophages and its ability to multiply there.     

Host membrane glycosphingolipids and lipid microdomains facilitate Histoplasma capsulatum internalisation by macrophages

Recognition and internalisation of intracellular pathogens by host cells is a multifactorial process, involving both stable and transient interactions. The plasticity of the host cell plasma membrane is fundamental in this infectious process. Here, the participation of macrophage lipid microdomains during adhesion and internalisation of the fungal pathogen Histoplasma capsulatum (Hc) was investigated. An increase in membrane lateral organisation, which is a characteristic of lipid microdomains, was observed during the first steps of Hc–macrophage interaction. Cholesterol enrichment in macrophage membranes around Hc contact regions and reduced levels of Hc–macrophage association after cholesterol removal also suggested the participation of lipid microdomains during Hc–macrophage interaction. Using optical tweezers to study cell‐to‐cell interactions, we showed that cholesterol depletion increased the time required for Hc adhesion. Additionally, fungal internalisation was significantly reduced under these conditions. Moreover, macrophages treated with the ceramide‐glucosyltransferase inhibitor (P4r) and macrophages with altered ganglioside synthesis (from B4galnt1^?/? mice) showed a deficient ability to interact with Hc. Coincubation of oligo‐GM1 and treatment with Cholera toxin Subunit B, which recognises the ganglioside GM1, also reduced Hc association. Although purified GM1 did not alter Hc binding, treatment with P4 significantly increased the time required for Hc binding to macrophages. The content of CD18 was displaced from lipid microdomains in B4galnt1^?/? macrophages. In addition, macrophages with reduced CD18 expression (CD18^low) were associated with Hc at levels similar to wild‐type cells. Finally, CD11b and CD18 colocalised with GM1 during Hc–macrophage interaction. Our results indicate that lipid rafts and particularly complex gangliosides that reside in lipid rafts stabilise Hc–macrophage adhesion and mediate efficient internalisation during histoplasmosis.     

Detection of antibody responses and delayed dermal hypersensitivity with Blastomyces dermatitidis yeast and mycelial lysate antigens

Yeast cell lysate and mycelial lysate antigens prepared from one strain (T-58) of Blastomyces dermatitidis were evaluated with respect to the detection of antibodies and delayed dermal hypersensitivity. Comparable ELISA sensitivity values were evidenced with the two antigens when assayed against serum specimens from dogs with blastomycosis, sera from non-infected dogs residing in endemic and nonendemic areas for blastomycosis and sera from rabbits that were hyperimmunized with B. dermatitidis antigens. Specificity determinations with anti -Histoplasma capsulatum rabbit sera indicated that both reagents exhibited only minimal cross-reactivity; the mycelial antigen was slightly more specific than the yeast phase reagent. Similar sensitivity and specificity results were experienced when the two antigens were used to detect delayed dermal hypersensitivity in guinea pigs previously sensitized with B. dermatitidis or H. capsulatum.     

MTOC reorientation occurs during FcgammaR-mediated phagocytosis in macrophages

Cell polarization is essential for targeting signaling elements and organelles to active plasma membrane regions. In a few specialized cell types, cell polarity is enhanced by reorientation of the MTOC and associated organelles toward dynamic membrane sites. Phagocytosis is a highly polarized process whereby particles >0.5 microm are internalized at stimulated regions on the cell surface of macrophages. Here we provide detailed evidence that the MTOC reorients toward the site of particle internalization during phagocytosis. We visualized MTOC proximity to IgG-sRBCs in fixed RAW264.7 cells, during live cell imaging using fluorescent chimeras to label the MTOC and using frustrated phagocytosis assays. MTOC reorientation in macrophages is initiated by FcgammaR ligation and is complete within 1 h. Polarization of the MTOC toward the phagosome requires the MT cytoskeleton and dynein motor activity. cdc42, PI3K, and mPAR-6 are all important signaling molecules for MTOC reorientation during phagocytosis. MTOC reorientation was not essential for particle internalization or phagolysosome formation. However Golgi reorientation in concert with MTOC reorientation during phagocytosis implicates MTOC reorientation in antigen processing events in macrophages.     

The interface between virulence and host response to the pathogenic fungus Histoplasma capsulatum

Intracellular pathogens have evolved machinery to evade the immune response in order to survive within a host. Histoplasma capsulatum, one of the intracellular pathogens, is a dimorphic fungus that dodges innate and adaptive immunity; it escapes immunity presumably through virulence factors that permit fungal survival and replication within the host. This review discusses immune factors that contribute to the control of H. capsulatum infection, several host-survival mechanisms H. capsulatum uses, and new techniques that have led to the identification of several H. capsulatum virulence factors, which will most likely aid in the discovery of many more.     

Comparative Study of the Cell Walls of the Yeastlike and Mycelial Phases of Histoplasma capsulatum

Cell walls were prepared from the yeastlike and mycelial phases (YP and MP) of Histoplasma capsulatum and from Saccharomyces cerevisiae by mechanical disruption and washing. Lipids were extracted with methanol-ether, chloroform, and acidified methanol:ether; a final extraction was made with ethylenediamine. The lipid contents of H. capsulatum YP and MP walls were about the same. Qualitative and quantitative analyses were made of the products obtained from treatment of the cell walls, or fractions from them, with weak acid or with enzymatic preparations containing glucanase and chitinase activities. YP walls contained much larger quantities of chitin and smaller quantities of mannose and amino acids than the MP walls. H. capsulatum MP was shown to resemble S. cerevisiae by low chitin content and by the presence of a mannose polymer, soluble in ethylenediamine and water. H. capsulatum MP chitin appeared to be intimately associated with glucose in the wall, since enzymatic hydrolysis of the residue after mild acid hydrolysis of cell walls or fractions from them resulted in the release of glucose and acetylglucosamine; only acetylglucosamine was released from YP walls with such treatment. By electron microscopic observations, the unextracted MP cell walls were much thinner than the YP, and neither wall appeared laminated.     

A study of fungi found in association with Histoplasma capsulatum: three bird roosts in S.E. Missouri,U.S.A.

Summary Soil samples from three bird roosts in SE Missouri were studied in an effort to detect differences in the distribution of microfungi in sites contaminated withHistoplasma capsulatum and presumably favorable, but uncontaminated sites. Seventy-four of 151 species identified were found in conjunction withH. capsulatum; many of the remaining 77 species were isolated only rarely and are probably not important colonizers of these soils. Only minor differences were noted regarding distribution of more commonly occurring species. Fungi known to be parasitic or antagonistic to other microfungi were about evenly distributed among the sites.H. capsulatum was most abundant in the one roost which was still occupied by flocks of birds.     

Inability to sustain intraphagolysosomal killing of Staphylococcus aureus predisposes to bacterial persistence in macrophages

Macrophages are critical effectors of the early innate response to bacteria in tissues. Phagocytosis and killing of bacteria are interrelated functions essential for bacterial clearance but the rate‐limiting step when macrophages are challenged with large numbers of the major medical pathogen Staphylococcus aureus is unknown. We show that macrophages have a finite capacity for intracellular killing and fail to match sustained phagocytosis with sustained microbial killing when exposed to large inocula of S. aureus (Newman, SH1000 and USA300 strains). S. aureus ingestion by macrophages is associated with a rapid decline in bacterial viability immediately after phagocytosis. However, not all bacteria are killed in the phagolysosome, and we demonstrate reduced acidification of the phagolysosome, associated with failure of phagolysosomal maturation and reduced activation of cathepsin D. This results in accumulation of viable intracellular bacteria in macrophages. We show macrophages fail to engage apoptosis‐associated bacterial killing. Ultittop mately macrophages with viable bacteria undergo cell lysis, and viable bacteria are released and can be internalized by other macrophages. We show that cycles of lysis and reuptake maintain a pool of viable intracellular bacteria over time when killing is overwhelmed and demonstrate intracellular persistence in alveolar macrophages in the lungs in a murine model.     

Glycohydrolase contamination of commercial enzymes frequently used in the preparation of fungal cell walls

Commercial enzyme preparations frequently used in the preparation of fungal cell walls, viz., proteases, a lipase, and a phosphatase, were examined for the presence of contaminating glycohydrolase activity, since such activity could result not only in the removal of cytoplasmic constituents but also in the removal of portions of the wall itself. Glucosidase activities were detected in a protease of fungal origin, in a lipase from wheat germ, and in a phosphatase from potatoes. Additionally, two commercial protease preparations from Streptomyces griseus contained β-1,3-glucanase activity in significant amounts, a third contained trace amounts of the glucanase, but a fourth was totally free of glycohydrolase activity. The protease preparations from S. griseus released laminaribiose from yeast-phase cell walls of Histoplasma capsulatum chemotypes I and II, but only trace amounts of glucose were released. One protease was examined more closely and was found to be optimally active on laminarin at pH 5.5 and 50°C. It was also highly active on the same substrate at pH 8.0 and 37°C, however. A protease preparation from Aspergillus oryzae released glucose from the yeast-phase cell walls of H. capsulatum chemotypes I and II as well as from cell walls of Blastomyces dermatitidis, suggesting that the preparation contained both α- and β-glucanases.     

Melanin as a virulence factor of Paracoccidioides brasiliensis and other dimorphic pathogenic fungi: a minireview

Melanin pigments are substances produced by a broad variety of pathogenic microorganisms, including bacteria, fungi, and helminths. Microbes predominantly produce melanin pigment via tyrosinases, laccases, catecholases, and the polyketide synthase pathway. In fungi, melanin is deposited in the cell wall and cytoplasm, and melanin particles (“ghosts”) can be isolated from these fungi that have the same size and shape of the original cells. Melanin has been reported in several human pathogenic dimorphic fungi including Paracoccidioides brasiliensis, Sporothrix schenckii, Histoplasma capsulatum, Blastomyces dermatitidis, and Coccidioides posadasii. Melanization appears to contribute to virulence by reducing the susceptibility of melanized fungi to host defense mechanisms and antifungal drugs.     

Isoelectric focusing and ELISA evaluation of a <Emphasis Type="Italic">Blastomyces dermatitidis</Emphasis> human isolate

Blastomyces dermatitidis is a dimorphic fungal organism and the causative agent of blastomycosis. This organism is endemic east of the Mississippi river as is the fungal organism Histoplasma capsulatum. This study was performed to determine if sensitive and specific antigens from the B. dermatitidis yeast phase lysate (human isolate 592) could be separated using isoelectric focusing (IEF) to eliminate antigens that are cross-reactive with H. capsulatum. Indirect enzyme linked immunosorbent assays were performed to test for reactivity and cross-reactivity and indicate that certain fractions (4–6) were highly reactive. Fraction 16 exhibited a high degree of cross-reactivity with H. capsulatum. This study indicates that IEF may be a useful method for the separation of B. dermatitidis proteins.     

Two-dimensional immunoelectrophoresis of histoplasmin and a purified polysaccharide-protein antigen ofHistoplasma capsulatum

Crude histoplasmin and a polysaccharide-protein complex (PPC-histo) antigens obtained from culture filtrates ofHistoplasma capsulatum were analyzed by single and tandem two-dimensional immunoelectrophoresis (TD-IEP) using a rabbit hyperimmune anti-histoplasmin polyvalent serum. Single TD-IEP showed 14 arc precipitates for histoplasmin. Continuity of arcs 2, 6, and 7, and 9 and 10 was observed, suggesting a different polymeric configuration of the same antigen. This was also confirmed in tandem TD-IEP of histoplasmin with homologous (PPC-histo) and heterologous PPC's fromBlastomyces dermatitidis, Paracoccidioides brasiliensis andCoccidioides immitis. Tandem TD-IEP of histoplasmin and PPC-histo displayed a similar antigenic pattern to histoplasmin alone, being arcs 1 and 3 more evident and apparently present only in histoplasmin and PPC-histo. Tandem TD-IEP showed common antigens among the other heterologous fungal purified antigens, and seems useful to observe the multiplicity of antigens present in fungal preparations and to identify those precipitates (arcs 1 and 3) that are predominant in the purified preparation.     

Resistance of Histoplasma capsulatum to killing by human neutrophils

The basis for resistance of yeast form of Histoplasma capsulatum to antifungal activity of human neutrophils was studied. In limiting dilution assays and short term coculture assays human neutrophils were ineffective in killing H. capsulatum whereas Candida albicans was readily killed. By contrast, in a cell free hydrogen peroxide-peroxidase-halide system H. capsulatum was as sensitive to killing as C. albicans. Moreover, lysate of human neutrophils effectively substituted for horse-radish peroxidase in a cell free system for killing H. capsulatum. H. capsulatum elicited significant products of the oxidative burst in human neutrophils as detected by luminol-enhanced chemiluminescence. However, the response was two-fold less (p<0.05) than that induced by C. albicans. Transmission electron microscopy studies showed that phagosome-lysosome fusion took place when neutrophils phagocytosed C. albicans or H. capsulatum. Taken together, these findings indicate that, even though H. capsulatum elicits an oxidative burst and phagosome-lysosome fusion within the phagosome, it is capable of evading damage in short term assays.Abbreviations CFU colony forming units - PMN polymorphonuclear neutrophil - CTCM complete tissue culture medium - CL chemiluminescence - HPO horseradish peroxidase - P-L lysosomal peroxidase positive material     

Immunological detection of the fungal parasite,Pythium sp.; the causative organism of red rot disease in Porphyra yezoensis

The red rot disease of Porphyra yezoensis Ueda (Rhodophyta) is caused by a parasitic fungus, Pythium sp. To facilitate the detection of this pathogen in infected thalli of P. yezoensis, polyclonal and monoclonal antibodies were prepared. Antibodies were raised against antigen prepared from an isolate of fungal hyphae obtained from red-rot infected thallus of P. yezoensis from Aichi Prefecture. Polyclonal antibody was obtained from the antisera of immunized rabbits. Monoclonal antibody was obtained from the culture supernatant of a hybridoma which had been established by cell fusion between a myeloma cell line and spleen cells of immunized mice. Hyphae were detected by means of indirect fluorescent antibody technique. Titers of polyclonal antibodies obtained were too low to recognize fungal hyphae that had penetrated the thalli of P. yezoensis; however, monoclonal antibody was useful for the detection of fungi that had penetrated algal thalli. The monoclonal antibody was specific for the Pythium sp. from red-rot infected thalli of P. yezoensis from Saga (western Japan) and from Aichi Prefectures (central Japan), but was ineffective for infections from Miyagi Prefecture (northern Japan). It is evident, therefore, that Pythium sp. can give rise to immunologically distinct groups of red rot disease. Based on chemical and enzymatic treatments, the antigenic determinant appeared to localize on the sugar chains of glycoconjugates or the polysaccharides of the hyphal cell wall.     

The Leukotriene B4/BLT1 Axis Is a Key Determinant in Susceptibility and Resistance to Histoplasmosis

The bioactive lipid mediator leukotriene B₄ (LTB₄) greatly enhances phagocyte antimicrobial functions against a myriad of pathogens. In murine histoplasmosis, inhibition of the LT-generating enzyme 5-lypoxigenase (5-LO) increases the susceptibility of the host to infection. In this study, we investigated whether murine resistance or susceptibility to Histoplasma capsulatum infection is associated with leukotriene production and an enhancement of in vivo and/or in vitro antimicrobial effector function. We show that susceptible C57BL/6 mice exhibit a higher fungal burden in the lung and spleen, increased mortality, lower expression levels of 5-LO and leukotriene B₄ receptor 1 (BLT₁) and decreased LTB₄ production compared to the resistant 129/Sv mice. Moreover, we demonstrate that endogenous and exogenous LTs are required for the optimal phagocytosis of H. capsulatum by macrophages from both murine strains, although C57BL/6 macrophages are more sensitive to the effects of LTB₄ than 129/Sv macrophages. Therefore, our results provide novel evidence that LTB₄ production and BLT₁ signaling are required for a histoplasmosis-resistant phenotype.