Yoshisato Hagihara

Degradation of human dentine collagen by an enzyme produced by the yeast Candida albicans

An extracellular collagenolytic enzyme separated from a culture medium of this pathogenic yeast was found to attack undenatured predentine collagen as seen in scanning electron micrographs. After treatment with the enzyme at pH 4.0, but not by that acidity alone, dentine tubules were less easily distinguished and the collagen fibres were less well-organized.

The relationship between cyclic adenosine 3',5'-monophosphate and morphology in exponential phase Candida albicans.

The relationship between changes in cyclic AMP content and germ tube formation in exponential phase Candida albicans was investigated using two simple media containing glucose plus ammonium chloride, or N-acetyl-D-glucosamine (GlcNAc). The glucose medium did not promote germ tube formation unless the cells were starved before inoculation, whereas the GlcNAc medium promoted germ tube formation in both non-starved and starved cells. The cyclic AMP content of exponential phase cells, non-starved cells and starved cells was 0.21, 0.34 and 0.64 pmol mg-1 dry wt, respectively. In glucose medium, cyclic AMP content in both non-starved cells and starved cells increased for a period of 60 min after inoculation, but then decreased for a further 120 min. The cyclic AMP content of non-starved cells and starved cells was 0.16 and 0.29 pmol mg-1 dry wt, respectively, after 180 min. The maximum percentage of non-starved cells with germ tubes was around 20%. Starved cells with germ tubes were observed after 40 min and reached a maximum (around 90%) after 140 min. The number of germ tubes remained constant for the next 40 min. In GlcNAc medium, the cyclic AMP content of both non-starved cells and starved cells showed a tendency to increase for 180 min. The content of non-starved cells and starved cells was 2.02 and 1.75 pmol mg-1 dry wt, respectively, after 180 min. Germ tube formation in non-starved cells started after 70 min, reached around 80% after 150 min, and remained stable for the next 30 min.(ABSTRACT TRUNCATED AT 250 WORDS)

The relationship between the glucose uptake system and growth cessation in Candida albicans

It is thought that dimorphic Candida albicans undergoes changes in its intracellular metabolic state prior to yeast-mycelial transformation. Cells grown in budding form to mid-exponential phase could not be induced to form germ tubes when grown in glucose medium. However, cells in which growth was initially inhibited by either starvation or inhibitors (0.1% hydroxyurea, 4% sodium malonate or 4% 2-deoxy-D-glucose) could be induced to form germ tubes in the same medium. The effects of these initial treatments on the intracellular state in mid-exponential phase cells were analysed by measuring the kinetics of D-glucose uptake. D-glucose uptake in mid-exponential phase and stationary phase cells was measured. The untreated mid-exponential phase cells exhibited only a high Km (6.9 mM). However, mid-exponential phase cells, in which growth was initially inhibited, exhibited both a high Km (3.2-6.2 mM) and a low Km (0.40-0.78 mM) simultaneously. In addition, the stationary phase cells exhibited both a high Km (5.6 mM) and a low Km (0.56 mM). These results suggest that there are two kinetically distinct systems of glucose transport in C. albicans and that changes in the glucose uptake system in C. albicans may be related to intracellular changes prior to transition from the budding to the mycelial form.

Degradation of bovine achilles tendon collagen by Candida albicans proteinase.

Candida albicans, when cultivated in a medium containing insoluble bovine achilles tendon as a nitrogen source, was able to produce a collagen degrading proteinase. The degradation of achilles tendon collagen by the proteinase was verified by morphological change and the release of hydroxyproline. The proteinase activity was inhibited by pepstatin.

Metabolism ofl-proline toN-acetyl-d-glucosamine during germ tube formation ofCandida albicans

The metabolism ofl-proline toN-acetyl-d-glucosamine (GlcNAc) during germ tube formation ofCandida albicans (C. albicans) ATCC 1002 was studied. In uptake experiments, 6.9 nmol ofl-[14C]proline were taken up by 1×106 cells during 3 h of incubation at 37°C. The percentage of germ tube formation was 94 under the same condition. The presence of GlcNAc reduced the uptake ofl-proline to 3.0 nmol. The percentage of germ tube formation was 95 in the presence and absence of GlcNAc. The [3H]GlcNAc uptake was 3.0 nmol and was constant whetherl-proline was present or not. After the preparation of a chitin fraction from germ tubes that were labeled withl-[14C]proline, the radioactivity froml-proline was detected in the glucosamine (GlcN) fraction by thin-layer chromatography (TLC). The metabolism ofl-proline to GlcNAc in chitin during germ tube formation was confirmed in this experiment.