IgG hybridomas were produced which preferentially reacted with cell-surface antigens of either yeast cells or hyphae of Candida albicans. Four mAbs were used in an immunostaining procedure to follow the expression dynamics of these antigens in media supplemented with glucose or galactose. Yeast cell growth was analysed during the lag phase, the early-and late-exponential phases and the stationary phase, and mycelium formation was analysed between 0 5 and 24 h induction a t 37 "C. It appears that yeast cell-surface antigens 5 C l l and 2 E l l are expressed throughout all phases of yeast cell growth as well as on young hyphae after up to 1 h induction. Longer hyphae only faintly react with these two mAbs as they switch to hyphal cell-surface antigens 268 and 4E1 after 3 h induction. The reactivity to mAbs 268 and 4 E l was induced after a 3 h temperature shift and was confined to the terminal third of growing mycelia. Growth and hyphae induction in galactose prolonged the reactivity of young hyphae with the two anti-yeast-cell mAbs, whereas the expression of surface antigens 268 and 2 E l l appeared delayed and desynchronized on hyphae. Whereas a similar reactivity was found with ten ATCC strains of C. albicans, four clinical isolates had a unique pattern of reactivity. lmmunoblot analyses of DTT extracts of cell-surface constituents indicated that the antigens were proteinaceous in nature and showed that yeast-cell antigens 5 C l l and 2 E l l are detected in four bands between 68 and 104 kDa, whereas mycelial antigens 4E1 and 268 are detected in 117 kDa and 104 kDa bands found in mycelial but not in yeast-cell extracts. Present data support the concept of a dynamic balance in the expression of phase-specific antigens in C. albicans.
Asbestosis and silicosis are chronic, fibrosing lung diseases due to prolonged inhalation of asbestos fibers or silica particles. However, little is known about the implication of these toxic dusts on cell-mediated cytotoxicity. Among the first types of cells that are in contact with the dusts are the alveolar macrophages (AM). We studied the effect of different concentrations of UICC chrysotile asbestos and silica on 18-h cytotoxicity of AM against tumor necrosis factor (TNF)-resistant P815 target cells or TNF-sensitive L929 target cells. Rat AM, obtained by bronchoalveolar lavage, were incubated for 2 h with 20, 50, or 100 micrograms/ml chrysotile or silica before the addition of target cells. AM cytotoxicity was significantly inhibited at greater than 20 micrograms/ml of chrysotile. In contrast, silica did not inhibit AM-mediated cytotoxicity at any concentration used. Asbestos, but not silica, caused significant production of PGE2 by macrophages and target cells. Addition of the cyclooxygenase inhibitor indomethacin to our system abolished all inhibition by asbestos. These results suggest that the inhibition of AM-mediated cytotoxicity by chrysotile was caused by prostaglandins, and that fibrogenic particles differ in their capacity to modulate AM function.
Using an experimental model in the mouse we have shown that both local and central lines of defense, involving CD4+ T cells, participate in a dynamic interaction to maintain a long-term carrier state of Candida albicans in the oral cavity. We have tested the impact of a predisposing factor to oral candidiasis in the form of a topical application of a corticosteroid (Topsyn gel) to the oral mucosa for 75 mice twice a day for a 20-day period. Very rapidly after the treatment was initiated, i.e. on day 4, the residual population of Candida increased up to 40-fold and by day 21, the population was 400-fold that of the carrier state. The resident population of intraepithelial CD4+ T cells in the oral mucosa virtually disappeared during the treatment. A topical corticosteroid application also resulted in a massive depletion of T cells in the lymph nodes and in the transient abrogation of the DTH reaction to Candida antigens. On cessation of treatment, normal levels of both Candida and intraepithelial CD4+ T cells were also quickly restored. These results suggest that resistance to superficial invasion by Candida is linked to the presence of an oral mucosal line of defense and that topical application of corticosteroids may dramatically shift the host-parasite relationship in favor of Candida.
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