Candida albicans causes superficial and life-threatening systemic infections.
These are difficult to treat often due to drug resistance, particularly because
C. albicans biofilms are inherently resistant to most antifungals.
Sophorolipid (SL), a glycolipid biosurfactant, has been shown to have antimicrobial
and anticancer properties. In this study, we investigated the effect of SL on C.
albicans biofilm formation and preformed biofilms. SL was found to inhibit
C. albicans biofilm formation as well as reduce the viability of
preformed biofilms. Moreover, SL, when used along with amphotericin B (AmB) or
fluconazole (FLZ), was found to act synergistically against biofilm formation and
preformed biofilms. Effect of SL on C. albicans biofilm formation was further
visualized by scanning electron microscopy (SEM) and confocal laser scanning
microscopy (CLSM), which revealed absence of hyphae, typical biofilm architecture
and alteration in the morphology of biofilm cells. We also found that SL
downregulates the expression of hypha specific genes HWP1, ALS1,
ALS3, ECE1 and SAP4, which possibly explains the inhibitory
effect of SL on hyphae and biofilm formation.
Ordered mesoporous materials (OMMs) are interesting matrixes for nanomedicine applications such as innovative drug delivery systems. Here, we compare the behavior of the widely studied SBA-15 mesoporous silica with that of the less investigated MSE (a periodic mesoporous organosilica whose silicon atoms are alternatively connected by means of -Si-O-Si- and -Si-CH(2)-CH(2)-Si- groups) toward the adsorption (pH 7.0 and 9.6) and in vitro release (pH 7.4; T = 37 degrees C) of an antimicrobial protein (hen egg white lysozyme). Both OMMs have a hexagonal ordered mesoporous structure and texture, as confirmed by SAXS, TEM, and N(2) adsorption isotherms, but differ for the chemical composition and surface charge density, as determined by ATR-FTIR spectroscopy and potentiometric titrations, respectively. Rather than the structural and textural features, the different chemical composition of SBA-15 and MSE seems to be responsible for the different lysozyme loading and release and for the different stability toward the lixiviating action of the physiological medium (pH 7.4; T = 37 degrees C)
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