Misako Ohkusu

Microtubules and actin cytoskeleton in Cryptococcus neoformans compared with ascomycetous budding and fission yeasts.

Actin cytoskeleton and microtubules were studied in a human fungal pathogen, the basidiomycetous yeast Cryptococcus neoformans (haploid phase of Filobasidiella neoformans), during its asexual reproduction by budding using fluorescence and electron microscopy. Staining with rhodamine-conjugated phalloidin revealed an F-actin cytoskeleton consisting of cortical patches, cables and cytokinetic ring. F-actin patches accumulated at the regions of cell wall growth, i. e. in sterigma, bud and septum. In mother cells evenly distributed F-actin patches were joined to F-actin cables, which were directed to the growing sterigma and bud. Some F-actin cables were associated with the cell nucleus. The F-actin cytokinetic ring was located in the bud neck, where the septum originated. Antitubulin TAT1 antibody revealed a microtubular cytoskeleton consisting of cytoplasmic and spindle microtubules. In interphase cells cytoplasmic microtubules pointed to the growing sterigma and bud. As the nucleus was translocated to the bud for mitosis, the cytoplasmic microtubules disassembled and were replaced by a short intranuclear spindle. Astral microtubules then emanated from the spindle poles. Elongation of the mitotic spindle from bud to mother cell preceded nuclear division, followed by cytokinesis (septum formation in the bud neck). Electron microscopy of ultrathin sections of chemically fixed and freeze-substituted cells revealed filamentous bundles directed to the cell cortex. The bundles corresponded in width to the actin microfilament cables. At the bud neck numerous ribosomes accumulated before septum synthesis. We conclude: (i) the topology of F-actin patches, cables and rings in C. neoformans resembles ascomycetous budding yeast Saccharomyces, while the arrangement of interphase and mitotic microtubules resembles ascomycetous fission yeast Schizosaccharomyces. The organization of the cytoskeleton of the mitotic nucleus, however, is characteristic of basidiomycetous yeasts. (ii) A specific feature of C. neoformans was the formation of a cylindrical sterigma, characterized by invasion of F-actin cables and microtubules, followed by accumulation of F-actin patches around its terminal region resulting in development of an isodiametrical bud.

SEROTYPE, MATING TYPE AND PLOIDY OF Cryptococcus neoformans STRAINS ISOLATED FROM PATIENTS IN BRAZIL

Serotype, mating type and ploidy of 84 strains of Cryptococcus neoformans isolated from 61 AIDS and 23 non-AIDS patients admitted in a tertiary teaching hospital in São Paulo, Brazil were examined. Among 61 strains isolated from AIDS patients, 60 strains were var. grubii (serotype A). Only one strain was var. gattii (serotype B). No var. neoformans (serotype D) was found. Among 23 strains isolated from non-AIDS patients, 15 were var. grubii (serotype A) and the remaining 8 were var. gattii, all of which were serotype B. Seventy-three of the 75 serotype A strains were the heterothallic alpha type (MATalpha) and the remaining 2 were untypable (asexual). Most of the MATalpha strains (69/73) were haploid and the remaining 4 strains were diploid. Similarly, both of the 2 asexual strains among the 75 serotype A strains were haploid. There were no alpha-mating type (MATalpha) strains among the 84 isolates. All of the 8 var. gattii strains were serotype B and haploid. Among a total of 84 strains tested, neither serotype AD nor serotype D were found. Neither triploid nor tetraploid were found. These results suggest that the serological, sexual and ploidy characteristics in C. neoformans strains isolated from AIDS patients in São Paulo were rather simple, whereas strains isolated from non-AIDS patients presented serotype A and B with predominance of serotype A.

Intestinal injuries caused by experimental palytoxicosis in mice

Intestinal injuries in mice caused by i.p. administration of palytoxin at 1 microgram/kg were studied microscopically. Within 1 hr, bleeding started from small intestinal villi. At 6 hr, congestion in the villi and edema in the lamina propria in the crypt layer developed prominently. Edema and necrosis of lamina propria in the villus appeared after 16 hr. At 24 hr, villi lost their epithelial cells and then their length decreased to 1/4 to 1/8 of normal. Diarrhea was seen after 16 hr, accompanying severe peritonitis. Hypersecretion of mucus from the large intestine was considered to be physically stimulated by peritonitis, which then induced diarrhea.

Fluconazole‐Resistant Pathogens Candida inconspicua and C. norvegensis: DNA Sequence Diversity of the rRNA Intergenic Spacer Region, Antifungal Drug Susceptibility, and Extracellular Enzyme Production

The opportunistic fungal pathogens Candida inconspicua and C. norvegensis are very rarely isolated from patients and are resistant to fluconazole. We collected 38 strains of the two microorganisms isolated from Europe and Japan, and compared the polymorphism of the rRNA intergenic spacer (IGS) and internal transcribed spacer (ITS) regions, antifungal drug susceptibility, and extracellular enzyme production as a potential virulence factor. While the IGS sequences of C. norvegensis were not very divergent (more than 96.7% sequence similarity among the strains), those of C. inconspicua showed remarkable diversity, and were divided into four genotypes with three subtypes. In the ITS region, no variation was found in either species. Since the sequence similarity of the two species is approximately 70% at the ITS region, they are closely related phylogenetically. Fluconazole resistance was reconfirmed for the two microorganisms but they were susceptible to micafungin and amphotericin B. No strain of either species secreted aspartyl proteinase or phospholipase B. These results provide basal information for accurate identification, which is of benefit to global molecular epidemiological studies and facilitates our understanding of the medical mycological characteristics of C. inconspicua and C. norvegensis.

Identification of genes involved in the phosphate metabolism in Cryptococcus neoformans

Cryptococcus neoformans is a pathogenic basidiomycetous yeast that can cause life-threatening meningoencephalitis in immuno-compromized patients. To propagate in the human body, this organism has to acquire phosphate that functions in cellular signaling pathways and is also an essential component of nucleic acids and phospholipids. Thus it is reasonable to assume that C. neoformans (Cn) possesses a phosphate regulatory system (PHO system) analogous to that of other fungi. By BLAST searches using the amino acid sequences of the components of the PHO system of Saccharomyces cerevisiae (Sc), we found potential counterparts to ScPHO genes in C. neoformans, namely, acid phosphatase (CnPHO2), the cyclin-dependent protein kinase (CDK) inhibitor (CnPHO81), Pho85-cyclin (CnPHO80), and CDK (CnPHO85). Disruption of each candidate gene, except CnPHO85, followed by phenotypic analysis, identified most of the basic components of the CnPHO system. We found that CnPHO85 was essential for the growth of C. neoformans, having regulatory function in the CnPHO system. Genetic screening and ChIP analysis, showed that CnPHO4 encodes a transcription factor that binds to the CnPHO genes in a Pi-dependent manner. By RNA-seq analysis of the wild-type and the regulatory mutants of the CnPHO system, we found C. neoformans genes whose expression is controlled by the regulators of the CnPHO system. Thus the CnPHO system shares many properties with the ScPHO system, but expression of those CnPHO genes that encode regulators is controlled by phosphate starvation, which is not the case in the ScPHO system (except ScPHO81). We also could identify some genes involved in the stress response of the pathogenic yeast, but CnPho4 appeared to be responsible only for phosphate starvation.

Effects of repeated injections of palytoxin on lymphoid tissues in mice.

Sublethal doses of palytoxin were i.p. injected repeatedly to mice, and the effects on lymphoid tissues were examined. The weight and morphology of the thymus were influenced during exposure but had generally recovered after 1 month of withdrawal. The ratio of lymphocytes to total leukocytes in blood was decreased during the injection term, and did not recover to a normal level even after 1 month of withdrawal. The component of B-cells in the lymphocytes was clarified as being responsible for the small number of lymphocytes in the recovery process.

Dynamics of the spindle pole body of the pathogenic yeast Cryptococcus neoformans examined by freeze-substitution electron microscopy

Cryptococcus neoformans is an opportunistic human pathogen belonging to basidiomycetous fungi and has unique properties in cell cycle progression. In the present study, dynamics of the spindle pole body (SPB) during the cell cycle was examined using freeze-substitution and serial thin-sectioning electron microscopy. The SPB was located on the outer nuclear envelope and appeared either dumbbell- or bar-shaped in G1 through G2 phases. At the beginning of prophase, globular elements of the SPB enlarged, associated with numerous cytoplasmic microtubules, and separated on the nuclear envelope. At prometaphase, the SPBs entered the nuclear region by breaking a part of the nuclear membrane, were located at the isthmus, and were associated with numerous nuclear microtubules. The nuclear division process was carried out in the daughter cell, though the nucleolus remained in the mother cell. At anaphase, one half of the nucleus returned to the mother cell. At telophase, the SPB element was extruded back to the cytoplasm from the nuclear region. By analyzing serial sections of 63 cells, duplication of the SPB was found to take place in the early G1 phase. Thus, the location, structure, and duplication cycle of the C. neoformans SPB are different from those of Saccharomyces cerevisiae, but have similarities to those of Schizosaccharomyces pombe.

The CRZ1/SP1-like gene links survival under limited aeration, cell integrity and biofilm formation in the pathogenic yeast Cryptococcus neoformans

AIMS Limited aeration has been demonstrated to cause slowdown in proliferation and delayed budding, resulting eventually in a unique unbudded G2-arrest in the obligate aerobic pathogenic yeast Cryptococcus neoformans. Also, the ability to adapt to decreased oxygen levels during pathogenesis has been identified as a virulence factor in C. neoformans. The aim of this study was to identify and characterize genes that are necessary for the proliferation slowdown and G2-arrest caused by limited aeration. METHODS Random mutants were prepared and screened for lack of typical slowdown of proliferation under limited aeration. The CNAG_00156.2 gene coding for a zinc-finger transcription factor was identified in mutants showing most distinctive phenotype. Targeted deletion strain and reconstituted strain were prepared to characterize and confirm the gene functions. This gene was also identified in a parallel studies as homologous both to calcineurin responsive (Crz1) and PKC1-dependent (SP1-like) transcription factors. RESULTS We have confirmed the role of the cryptococcal homologue of CRZ1/SP1-like transcription factor in cell integrity, and newly demonstrated its role in slowdown of proliferation and survival under reduced aeration, in biofilm formation and in susceptibility to fluconazole. CONCLUSIONS Our data demonstrate a tight molecular link between slowdown of proliferation during hypoxic adaptation and maintenance of cell integrity in C. neoformans and present a new role for the CRZ1 family of transcription factors in fungi. The exact positioning of this protein in cryptococcal signalling cascades remains to be clarified.

The cytoskeleton in the unique cell reproduction by conidiogenesis of the long-neck yeast Fellomyces ( Sterigmatomyces ) fuzhouensis

Summary.The morphology of conidiogenesis and associated changes in microtubules, actin distribution and ultrastructure were studied in the basidiomycetous yeast Fellomyces fuzhouensis by phase-contrast, fluorescence, and electron microscopy. The interphase cell showed a central nucleus with randomly distributed bundles of microtubules and actin, and actin patches in the cortex. The conidiogenous mother cell developed a slender projection, or stalk, that contained cytoplasmic microtubules and actin cables stretched parallel to the longitudinal axis and actin patches accumulated in the tip. The conidium was produced on this stalk. It contained dispersed cytoplasmic microtubules, actin cables, and patches concentrated in the cortex. Before mitosis, the nucleus migrated through the stalk into the conidium and cytoplasmic microtubules were replaced by a spindle. Mitosis started in the conidium, and one daughter nucleus then returned to the mother via an eccentrically elongated spindle. The cytoplasmic microtubules reappeared after mitosis. A strong fluorescence indicating accumulated actin appeared at the base of the conidium, where the cytoplasm cleaved eccentrically. Actin patches then moved from the stalk together with the retracting cytoplasm to the mother and conidium. No septum was detected in the long neck by electron microscopy, only a small amount of fine “wall material” between the conidium and mother cell. Both cells developed a new wall layer, separating them from the empty neck. The mature conidium disconnected from the empty neck at the end-break, which remained on the mother as a tubular outgrowth. Asexual reproduction by conidiogenesis in the long-neck yeast F. fuzhouensis has unique features distinguishing it from known asexual forms of reproduction in the budding and fission yeasts. Fellomyces fuzhouensis develops a unique long and narrow neck during conidiogenesis, through which the nucleus must migrate into the conidium for eccentric mitosis. This is followed by eccentric cytokinesis. We found neither an actin cytokinetic ring nor a septum in the long neck, from which cytoplasm retracted back to mother cell after cytokinesis. Both the conidium and mother were separated from the empty neck by the development of a new lateral wall (initiated as a wall plug). The cytoskeleton is clearly involved in all these processes.

Induced synchrony in Cryptococcus neoformans after release from G2-arrest.

Cryptococcus neoformans was grown first to OD 4 under moderate aeration, then diluted 2.5 times with fresh medium, and grown under limited aeration for 5 h. Oxygen concentration decreased from 5–6 mg l−1 to 1.5 mg l−1 1 h after the shift to limited aeration, and remained at a similar level thereafter. In all the eleven strains examined the shift caused unbudded G2-arrest in more than half of the cells. In three strains more than 80% of the cells were arrested in unbudded G2, and, therefore they were selected for synchrony experiments. After being shifted to extensive aeration again, the cells resumed growth by synchronous budding, followed by synchronous nuclear division. This method has turned out to be a good tool to prepare synchronized culture in C. neoformans, especially when a large amount of synchronized cells is needed. This is worthy of attention, since synchronous cultures after release from G2-arrest have not been reported yet in any yeast species.