DNA fingerprint patterns of 156 Cryptococcus neoformans isolates (26 AIDS patients, 46 non-AIDS patients, and 40 environmental sources) from both varieties (126 C. neoformans var. neoformans and 30 C. neoformans var. gattii isolates) and from seven countries were analyzed by using the DNA probe UT-4p. Nine and twelve distinct DNA fingerprint patterns were observed for isolates of the C. neoformans var. neoformans and var. gattii, respectively. No pattern was unique to AIDS patients, non-AIDS patients, or the environment. Pattern II was observed more often in non-AIDS patients (8 of 23) than in AIDS patients (0 of 25). Pattern V was the most prevalent pattern (42 of 82) in clinical and environmental isolates. Isolates from three AIDS patients in Burundi and Zaire exhibited patterns identical to each other but different from those of isolates collected from their houses (i.e., dust of floors, walls, etc.) or a nearby pigeon coop. DNA fingerprint stability was determined for 53 isolates from nine non-AIDS patients at different time intervals during 5 to 128 weeks of antifungal therapy. For eight patients, the fingerprint pattern was stable while the ninth may have had a mixed infection. Pattern II was observed in 4 of 9 patients, which is similar to 4 of 14 in other non-AIDS patients as reported here. In spite of the extensive pattern heterogeneity among 15 C. neoformans var. gattii isolates in Australia, the patterns observed in seven California isolates were quite different from those in Australia. Among isolates of C. neoformans var. gattii, one fingerprint pattern (designated b) was observed in several countries of the Far East. The fingerprint patterns of two of three environmental isolates from Eucalyptus camaldulensis trees in Australia were identical to those of 2 of the 12 clinical isolates from the country.
Summary: The occurrence of C. neoformans was studied in 261 aviaries at the Antwerp Zoological Gardens during 1985. Droppings of parrots and budgerigars were the most important and constant source of this pathogenic yeast. C. neoformans was also isolated from wooden nesting-boxes.
Zusammenfassung: Das Vorkommen von C. neoformans wurde in 261 Volieren des Zoologischen Gartens zu Antwerpen wahrend des Jahres 1985 untersucht. Exkremente von Papageien und Wellensichttichen waren die wichtigste und konstanteste Quelle dieser pathogenen Hefe. C. neoformans wurde auch aus Holznistkasten isoliert.
The BCCM/IHEM Biomedical Fungi/Yeasts collection hosts 1200 Candida albicans strains of the Vanbreuseghem mycotheque isolated between 1951 and 1997. From this collection, 469 freeze-dried C. albicans strains, producing chlamydospores, germ tubes and forming green colonies on CHROMagar, all isolated before 1990, were screened to identify the Candida dubliniensis isolates. Screening was performed in different steps using the growth at 45 °C, the assimilation of xylose, the intracellular ß-glucosidase activity test and C. dubliniensis-specific polymerase chain reaction (PCR) with primers from ACT1 intron sequence. Five isolates (1%) were identified as C. dubliniensis: one isolate was not documented, the others were of oropharyngeal origin of which two (1987 and 1990) were from proven human immunodeficiency virus patients.
Only a handful of cases of human Candida lambica infections have been published up to now. We report a Candida lambica fungemia in a young intravenous drug abuser. Using a popular chromogenic agar and a commercial phenotyping gallery, the fungus was initially misidentified as Candida krusei. Key tests to distinguish these closely related species are maximum growth temperature and assimilation of certain substrates present in more elaborate phenotyping assays. Definite confirmation is possible using molecular techniques. Susceptibility testing of the isolate demonstrated amphotericin B (MIC 0.125 microg/ml) susceptible, flucytosine (MIC 2 microg/ml) susceptible, itraconazole (MIC 0.064 microg/ml) susceptible, voriconazole (MIC 1 microg/ml) susceptible, and fluconazole (MIC >64 microg/ml, resistant).
