Electron microscopic studies of saprobic and parasitic forms of Coccidioides immitis

During studies of both saprobic and parasitic cycles of Coccidioides immitis, we found that the hyphae contained septa with simple pores, Woronin bodies, pinocytotic vesicles and/or lomasomes. The alternating thallic arthroconidia were released by fracturing of the adjacent sterile cells. The endospores were formed by progressive cleavage of the spherules. The taxonomic classification of C. immitis still remains obscure.     

Morphogenesis throughout saprobic and parasitic cycles of Coccidioides immitis

The fungus, Coccidioides immitis, differs from other dimorphic pathogens in that its parasitic stage is a complex morphogenic cycle, raising the question that changes in structure and composition during morphogenesis might influence host responses. As a prelude to examining the interaction of fungal morphogenesis and host responses, the life cycle of this fungus has been examined in greater detail than previously accomplished. During saprobic development, alternating enterothallic arthroconidia are formed as infectious propagules. The outer wall is broken and loosely adherent. Under in vitro conditions supporting the parasitic cycle, multinucleate arthroconidia transform into uninucleate round cells. Rapid, synchronous, nuclear replication is initiated, accompanied by increase in cell mass and deposition of new cell wall substance. As karyokinesis ceases, morphologic differentiation begins with invagination of the inner layers of the spherule wall and then is progressive, eventually segmenting the protoplasm into uninucleate endospores grouped in clusters within a hyaline membrane. Endospores, escaping through a break in the spherule wall, are held in aggregates by fibrils which are stretched and broken as endospores separate. It would seem that rapid production of hundreds of progeny from an original single cell, protected during development by an enclosing spherule wall and then released in clusters, should favor establishment of the fungus in a host, and dynamic changes in the cell wall during morphogenesis should influence the host response.     

Ultrastructure of Coccidioides immitis after exposure to the imidazole antifungals miconazole and ketoconazole

Scanning and transmission electron microscopy was performed on the various phases of Coccidioides immitis, exposed for different periods of time to the imidazole antifungals miconazole and ketoconazole. The development of spherules into endospores, which takes place in cultures under normal growth conditions, was suppressed in the drug treated cultures. Typical ultrastructural changes were localized at the cell periphery and in the vacuolar system. The drugs did induce changes in mature, resting endospore cultures and in cultures incubated statically at room temperature. Aerobically growing endospores were not susceptible to either drug. The transformation of arthroconidia into mycelium was fully prevented after treatment. Mycelial cells were most susceptible to the antifungals for necrosis was induced in a substantial part of the hyphae after exposure for 24 h.     

Inhibition of in vitro germination and spherulation ofCoccidioides immitis byAllium sativum

An aqueous extract of a dehydrated garlic preparation with uniform consistency inhibited all eight clinical isolates of the dimorphic fungus,Coccidioides immitis. The inhibitory and lethic concentrations were in the range of 3.12–6.25 mg/ml for both the saprophytic (mold) and parasitic (spherule) forms ofC. immitis. At 6.25-mg/ml concentration, the organism lost its viability within 6 h. The conversion of arthroconidia into spherules in a chemically defined liquid medium was prevented by garlic extract diluted to 1:320 (3.12 mg/ml). The data indicate that components of garlic readily inhibited the in vitro germination and spherulation of this medically important dimorphic fungus.     

Cellular immunity to Coccidioides immitis: In vitro lymphocyte response to spherules,arthrospores, and endospores

In vitro stimulation of incorporation of tritiated thymidine by human peripheral lymphocytes in response to two soluble antigens and three different intact but nonviable fungal forms of Coccidioides immitis was studied. Lymphocytes were obtained from three groups of subjects: healthy skin test positive, healthy skin test negative, and disseminated disease. Dose-response relationships to the intact forms (endospores, arthrospores, and spherules) were determined. Responses of lymphocytes from healthy skin test-positive subjects and subjects with disseminated disease were similar. Ranking of antigens by “potency” gave the following results: endospores = spherulin > mycelial filtrate > arthrospores = spherules. Endospores were the most potent of the intact forms in 10 of 11 subjects. The clear superiority of endospores over spherules is not due to differences in the total particle surface area available for presentation to the leukocytes. All antigens tested except spherules could discriminate between skin test-positive and skin test-negative subjects in this in vitro system. A T-cell-enriched, B-cell- and mono-cyte-depleted cell population demonstrated an active response to spherulin and to endospores. The variance of these finding with animal studies demonstrating spherules to be immunogenically superior when compared to endospores is discussed. This may have importance in future studies in humans of vaccines to C. immitis.     

Coccidioides posadasii produces melanin in vitro and during infection

Using techniques developed to study melanization in other fungi, we demonstrate that Coccidioides posadasii arthroconidia, spherules, and endospores produce melanin or melanin-like compounds in vitro and tissue forms synthesize pigment in vivo. Since melanin is an important virulence factor in other pathogenic fungi, it may affect the pathogenesis of coccidioidomycosis.     

Produccion de esferulas endosporuladas por inoculacion de hongos artroconidiosporados aislados del suelo

With several fungi isolated from samples of soils obtained in the province of San Luis and in the province of Mendoza (Argentina), we employed a simple technique for the inoculation in the mice's foot in order to provoke the formation of endosporulated spherules.As a conclusion, it could be proved that all these strains classificated as Gimnoascaceae, genus Malbranchea sp. and Auxarthron zuffianum, produce what appear to be endosporulating spherules. The viability of the endospores was not demonstrated nor was disseminating infection produced.     

Endospore formation in Hanseniaspora pseudoguilliermondii: a key characteristics of the species

In the course of a study on yeast diversity in Japan and Thailand, we isolated two yeast strains with bipolar budding patterns. Physiological and phylogenetic analysis suggested that these two strains were identical to Hanseniaspora pseudoguilliermondii. However, these strains produced hat-shaped ascospores and endospores, the latter of which was an unknown characteristic of the species. Endospores were produced on yeast extract–malt extract (YM) plates, though ascospores were produced on cornmeal agar of H. pseudoguilliermondii cultures. Endospores were formed in a twin-cell structure composed of a mother cell and a daughter cell, which did not separate after budding. Unlike the cell wall of the endospores, that of ascospore was stained with a chitin-specific stain. This was a feature distinguishing endospores and ascospores. Cell morphology of H. pseudoguilliermondii was compared with other species of the genus by observing their type strains. Other Hanseniaspora species did not show endospore formation under the same condition in which H. pseudoguilliermondii did. Therefore, the formation of endospores was considered to be a species-delimiting character of H. pseudoguilliermondii.     

ELECTRON MICROSCOPY OF CULTURED SPHERULES OF COCCIDIOIDES IMMITIS

Spherules of C. immitis have been grown in vitro in modified Roessler's medium under CO₂ tension and continuous cultures now maintained for over 18 months. Transformation of hyphae and development of the spherule form have been studied by thin section electron microscopy. Cells of organisms in the hyphal stage have thin (ca. 50 mµ), apparently structureless walls and a cytoplasmic membrane. Many nuclei, elongated mitochrondria with both transverse and longitudinal cristae, and lipid particles are present. The hyphal wall thickens and the cell transforms into spherules. A large central accumulation of electrontransparent polysaccharide appears in the spherule. The peripheral cytoplasm contains nuclei, each enclosed in a double-layered membrane, mitochondria, and small dense particles. Prior to cleavage the polysaccharide droplets are lost, while mitochrondria become small and spherical. Endospores are formed and liberated when the spherule wall breaks. These begin to grow and repeat the cleavage cycle.     

Role of the midgut gland in purine excretion in the robber crab,Birgus latro (Anomura: Coenobitidae)

White fecal strands of Birgus latro are composed of small spherules of uric acid with a mean diameter of 1.6 ± 0.6 μm. Large numbers of membrane‐bound spherules with concentric lamellae are present in the R cells of the midgut gland, so we suggest that lengths of white feces are produced by coordinated secretion of these spherules into the lumen of the midgut gland tubules. There are four cell types in the tubules with embryonic (E) cells at the distal tip, B cells in a narrow band at the distal end and R cells making up the bulk of the tubules and gland. F cells are sparsely scattered among the R cells. Midgut gland tissue was assayed for activities of xanthine dehydrogenase and xanthine oxidase, the two forms of xanthine oxidoreductase. Contrary to previous reports, we found that the midgut gland of B. latro contains only high activities of xanthine dehydrogenase. If proteinase inhibitors were omitted from the assays, however, significant activity of xanthine oxidase was measured, a result we regard as an artifact attributable to the partial conversion of xanthine dehydrogenase to xanthine oxidase by endogenous proteinases. R cells were demonstrated to contain peroxisomes, which may be involved in lipid metabolism rather than synthesis of uric acid. J. Morphol. 241:227–235, 1999 © 1999 Wiley‐Liss, Inc.     

Identification of coccidioidomycosis of the lung by fine needle aspiration biopsy

A solitary coin lesion in the lung is a frequent presentation of coccidioidomycosis; these lesions may be radiologically indistinguishable from cancer. In a series of 112 fine needle aspiration (FNA) biopsies performed in the San Joaquin Valley on solitary pulmonary nodules, 8 cases were identified as coccidioidomycosis by the presence of spherules in the aspirated material. The immature sporangia ranged in size from 4 micron to 40 micron. The smaller spherules did not show endospores and could have been confused with red blood cells. A methenamine silver or periodic acid-Schiff stain was helpful in identifying the spherules following decolorization of Papanicolaou-stained material; this was especially important when the background material was bloody. Older nonviable spherules showed a folded collapsed cell membrane, which may be associated with long-standing cavitary disease. A complement fixation titer was frequently not elevated. This study demonstrates the utility of FNA biopsy in the identification of cocci granulomas in the lung.     

Flow cytometric determination of nuclear DNA content during differentiation (spherulation and germination) of the myxomycete Physarum polycephalum

Summary Using flow cytometry, spherulating nuclei of Physarum isolated at the beginning of spherule wall formation were found to exhibit a DNA content corresponding to the G₂ phase of the cell cycle, although 8% lower. Before the first mitosis after spherule germination, a very slight incorporation of ³H thymidine into DNA was observed that was too weak to correspond to S phase, strongly suggesting that nuclei are stopped in G₂ phase inside the spherules. The lower value of nuclear DNA content found using flow cytometry of germinating spherules may not be related to DNA quantity, but may be due to a difference in chromatin organization during growth or spherulation, resulting in interference with the staining.     

Accumulation of noncrystalline cellulose in Physarum microplasmodia

Physarum plasmodium lives as a slimy mass of protoplast in the dark fragments into small multinucleated microplasmodia (mPL) in a liquid medium. When mPL are exposed to several unfavorable environments, they transform into “spherules” with a cell wall. Using a synchronous spherule-induction system for mPL, we examined the effect of 2,6-dichlorobenzonitrile on the synthesis of cellulose in mPL, by observing mPL under a fluorescence microscope, and isolated cellulose from mPL to identify them morphologically under scanning electron microscopy. Moreover, we examined in vivo labeling to determine when cellulose synthesis is activated in step 2. We found that the nourishment medium in step 2 was essential for mPL prior to spherulation and that the conversion starts at 48 h in step 2 of our system. From the experiments using Updegraff reagent for the sedimentation of cellulose in the cell wall fraction from mPL, we propose that cellulose produced in mPL is likely noncrystalline cellulose. We conclude that mPL of multinucleated protoplasts without the cell wall structure synthesize cellulose under constitutive condition and accumulate abundantly noncrystalline cellulose, in preparation for unfavorable environments that may occur in the future in which mPL must initiate the program to form the cell wall of spherules.     

Fine Structure of Silica Deposition and the Origin of Shell Components in a Testate Amoeba Netzelia tuberculata1

ABSTRACT Netzelia tuberculata secretes a test composed of siliceous particles cemented together by organic plaques forming a single-layered spheroidal shell. The siliceous particles are produced within cytoplasmic vacuoles by three mechanisms: 1) synthesis de novo by deposition of the silica on a matrix; 2) deposition of silica on particles remaining in digestive vacuoles, including starch grains and undigested walls of yeast cells; and 3) secretion of silica as a hollow sphere at the periphery of vacuoles enclosed by the silicasecreting membrane. The silicalemma (silica-secreting membrane) originates as fibril-containing vesicles (GFV) secreted by the Golgi body. Fusion of these vesicles with membranes surrounding digestive vacuoles or with membranes surrounding specialized vacuoles containing a silica-binding matrix apparently converts the vacuole into a silica-depositing organelle. Small spherules of silica occur on the vacuolar side of the membrane surrounding the developing test granules, marking the presence of silicalemma activity. These colloidal spherules become aggregated into larger spherules that condense to form the siliceous surface of the developing test particle. Other Golgi vesicles, designated Golgi plaque vesicles (GPV), produce the organic plaques that are deposited among the siliceous particles at the periphery of the cell during new test construction during cell division. The fine structure of the GFV and GPV and their role in test wall deposition are discussed in relation to other silica-biomineralizing protozoa, including radiolaria.     

Heliophilum fasciatum gen. nov. sp. nov. and Heliobacterium gestii sp. nov.: endospore-forming heliobacteria from rice field soils

Two new taxa of phototrophic heliobacteria are described: Heliobacterium gestii sp. nov. and Heliophilum fasciatum gen. nov. sp. nov. Both organisms were isolated from dry paddy soils. Cells of H. gestii were motile spirilla; cells of H. fasciatum formed cell bundles that were motile as units. Both organisms produced endospores; H. gestii endospores contained dipicolinic acid and elevated levels of calcium. As with other heliobacteria, bacteriochlorophyll g was produced in both organisms and no intracytoplasmic photosynthetic membranes were observed. Growth of H. gestii and H. fasciatum occurred under both photoheterotrophic and chemotrophic conditions; nitrogen fixation also occurred in both organisms. H. gestii and H. fasciatum showed a phylogenetic relationship to the "low GC" line of gram-positive Bacteria, but H. fasciatum was distinct from H. gestii and all other heliobacteria. The ability of H. gestii and H. fasciatum to form endospores might be a significant ecological advantage for survival in their rice soil habitat. Received: 16 October 1995 / Accepted: 10 January 1996     

Analyses of Monascus pigment secretion and cellular morphology in non‐ionic surfactant micelle aqueous solution

Monascus pigments produced by Monascus spp. are widely used as natural food colourants. Extractive fermentation technology can facilitate the secretion of intracellular Monascus pigments into extracellular non‐ionic surfactant micelle aqueous solution, so as to avoid the feedback inhibition and decomposition. In this study, behaviour of the trans‐membrane secretion of Monascus pigments was investigated using morphological and spectroscopic analyses. Laser scanning confocal microscopy (LSCM) traced that pigment secretion occurred through rapid trans‐membrane permeation in 4 min, with a simultaneous conversion in pigment characteristics. Approximately 50% of intracellular pigments (AU₄₇₀) extracted to extracellular broth with 40 g l^?1 Triton X‐100, indicating the capacity for pigment extraction was limited by the saturation concentrations of surfactant. Scanning electron microscope (SEM) and transmission electron microscope (TEM) imaging showed some damage in the cell wall but an intact cell membrane with a slightly increased mycelial diameter. However, the physiological properties of the cell membrane, including integrity, fluorescence intensity and permeability, were altered. A diagram was provided to demonstrate the behaviour of Monascus pigment secretion induced by Triton X‐100. This study lays a foundation for the further investigation of Monascus pigment metabolism and secretion in extractive fermentation.     

Characterization of two “Metabacterium” sp. from the gut of rodents

A new giant Gram-negative non-cultivatable symbiotic endospore-forming bacterium was found in the gut of the European hamster. This “Metabacterium” sp., provisionally named “Metabacterium criceti”, sp. n., has a length of approximately 20 μm and thickness of 4 μm. It forms 1 to 2 cylindrical endospores, approximately 9 μm long and 1.4 μm thick. TEM-micrographs show a cell wall structure characteristic of Gram-negative bacteria. Vegetative cells are filled with granules 0.3 μm in diameter which resemble starch granules. The reproduction occurs with binary fission and by formation of two endospores. Of thirteen biochemical components sought, four,i.e. glycogen, triacylglyceroles, peroxidase and alkaline phosphatase, were not found. Starch, acid mucosubstances, DNA, RNA, lipids, proteins, adenosine triphosphatase and acid phosphatase were found in different patterns, depending on the developmental stage of the bacterium. In the vegetative cell stage all these components, with the exception of starch, were found. In the endospore-bearing cell stage, only the starch-like cell component granulose could be detected. In free endospores only DNA, RNA and acid phosphatase were found. Some of the components,i.e. DNA, lipids, starch-like granulose, were linked to certain cell substructures, the distribution of others,viz. polysaccharides, RNA, adenosine triphosphatase and proteins was diffuse. The lipids, found only in vegetative cells, were associated with the cell wall. Presented in part during the19th Congress of the Czechoslovak Society for Microbiology, Košice (Slovakia) September 14–17, 1992. An erratum to this article is available at .     

Regeneration and maturation of daughter cell walls in the autospore-forming green alga<Emphasis Type="Italic"> Chlorella vulgaris</Emphasis> (Chlorophyta,Trebouxiophyceae)

Cell-wall synthesis in Chlorella vulgaris, an autospore-forming alga, was observed using the cell wall-specific fluorescent dye Fluostain I. The observation suggested two clearly distinguishable stages in cell-wall synthesis: moderate synthesis during the cell-growth process and rapid synthesis at the cell-division stage. We used electron microscopy to examine the structural changes that occurred with growth in the premature daughter cell wall during the cell-growth and cell-division phases. The cell began to synthesize a new daughter cell wall shortly after its release from the autosporangium. A very thin daughter cell wall, with a thickness of about 2 nm, was formed inside the mother cell wall and completely enveloped the outer surface of the plasma membrane of the cell. The daughter cell wall gradually increased in thickness from 2 to 3.8 nm. During the protoplast-division phase in the cell-division stage, the daughter cell wall expanded on the surface of the invaginating plasma membrane of the cleavage furrow, accompanied by active synthesis of the cell wall, which increased in thickness from 3.8 to 6.1 nm. The daughter cell matured into an autospore while completely enclosed by its own thickening (from 6.1 to 17 nm) wall. Finally, the released daughter cell was enclosed by its own cell wall after the mother cell wall burst. The daughter cell with mature wall thickness (17–21 nm) emerged as a small, but complete, autospore.     

SECRETORY VESICLE FORMATION IN GLANDULAR TRICHOMES OF CANNABIS SATIVA (CANNABACEAE)

Formation of secretory vesicles in the noncellular secretory cavity of glandular trichomes of Cannabis saliva L. was examined by transmission electron microscopy. Two patterns of vesicle formation occurred during gland morphogenesis. 1) During initial phases of cavity formation small hyaline areas arose in the wall near the plasma membrane of the disc cell. Hyaline areas of elongated shape and different sizes were distributed throughout the wall and adjacent to the secretory cavity. Hyaline areas increased in size, some possibly fusing with others. These hyaline areas, possessing a membrane, moved into the cavity where they formed vesicles. As membraned vesicles they developed a more or less round shape and their contents became electron-dense. 2) During development of the secretory cavity and when abundant secretions were present in the disc cells, these secretions passed through the wall to accumulate as membraned vesicles of different sizes in the cavity. As secretions emerged from the wall, a membrane of wall origin delimited the secretory material from cavity contents. Vesicles released from the wall migrated in the secretory cavity and contacted the sheath where their contents permeated into the subcuticular wall as large or diffused quantities of secretions. In the subcuticular wall these secretions migrated to the wall–cuticle interface where they contributed to structural thickening of the cuticle. This study demonstrates that the secretory process in glands of Cannabis involves not only secretion of materials from the disc cell, but that the disc cell somehow packages these secretions into membraned vesicles outside the cell wall prior to deposition into the secretory cavity for subsequent structural development of the sheath.