Adherence, colonization and dissemination of Candida dubliniensis and other Candida species.

Adherence to host cells is essential for yeasts to develop their full pathogenic potential since it triggers the process that leads to colonization and enables their persistence in the host. The aim of this work was to study the in vitro adherence of Candida dubliniensis and other Candida species, as well as the relation of adherence with the colonization and dissemination of these yeasts in an experimental mice model. Clinical isolates of Candida dubliniensis, Candida albicans, Candida glabrata, Candida krusei, Candida parapsilosis and Candida tropicalis were tested for their in vitro ability to adhere to buccal epithelial cells and in vivo to colonize and disseminate in an experimental infant mice model. Although C. dubliniensis isolates showed variable adherence values, their ability to colonize and disseminate in mice tissue was almost null. All C. albicans strains showed high levels of adherence and a prolonged gastrointestinal (GI) tract colonization. Both C. glabrata and C. krusei, showed a minor in vitro adherence and limited colonization time in infant mice GI tract. C. albicans and C. parapsilosis demonstrated a higher ability to disseminate, but the other non-C. albicans Candida strains showed a lower ability to disseminate. This study demonstrates that C. dubliniensis has a low GI tract colonization ability, as well as low dissemination ability in relation to C. albicans.

Oxidative stress response involving induction of protective enzymes in Candida dubliniensis.

Candida dubliniensis is a yeast species closely related to Candida albicans, but in contrast to C. albicans, limited information is available on the virulence factors of this important fungal pathogen. The objective of the present study was to determine if this species was able to evoke an adaptive response to oxidants. C. dubliniensis, treated with a low concentration of either H(2)O(2) or methyl viologen (a superoxide generating agent), mounts an adaptive response that results in increased survival against lethal doses of both oxidants. This response was characterized by the induction of enzymes with known antioxidant function. C. dubliniensis strains were less resistant to oxidants than C. albicans, displaying higher susceptibility to their toxic effects. The adaptive response described here might be responsible, among other factors, for the ability of this pathogen to cause infections in individuals with impaired immunity.

High prevalence of oral colonization by Candida dubliniensis in HIV-positive patients in Argentina.

Candida dubliniensis is a recently described yeast species, closely related to Candida albicans. This work represents the first general survey of the carriage of C. dubliniensis in the oral cavities of HIV-positive patients in Argentina. We studied 133 strains isolated from 162 HIV-positive patients, using the following identification tests: chlamydospore production on corn meal agar with Tween 80; colony color on CHROMagar Candida media; differential growth at 45 degrees C on potato dextrose agar; D-xylose assimilation; chlamydospore formation on sunflower seed agar (SSA); carbohydrate assimilation profiles using the API 20 C Aux commercial kit and PCR using primers that hybridize to the class IV intron of the ACT1 gene. Out of the 133 strains, 21 were identified as C. dubliniensis, representing approximately 13% of the 162 patients in this study. From these data, we conclude that although the PCR assay is the most reliable method, clamydospore formation on SSA is an easier and less expensive test for the screening of C. dubliniensis in the routine laboratory. Our results show that C. dubliniensis has a high prevalence among HIV-positive patients in Argentina.