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Glucan synthesis and its inhibition by cilofungin in susceptible and resistante strains of Candida albicans.
No full textThe lipopeptide antimycotic agent, cilofungin, at a dose of 20 micrograms ml-1, inhibited beta 1-3 glucan synthesis in a drug-susceptible strain (3153; minimum inhibitory concentration (MIC) 50 micrograms ml-1). This was demonstrated for both whole cells under growing and non-growing conditions, and during protoplast regeneration. However, time-effect experiments, during growth of a CA-2 culture initially exposed to an inhibitory dose of cilofungin, showed that this strain was able to progressively regain both glucan synthesis and a growth rate comparable to that of cultures that had not been treated with the drug. This recovery was not attributable to cilofungin instability or degradation within the CA-2 culture. Our study suggests the existence of an as yet unknown drug-related and/or cell-related factor(s) modulating the inhibition of glucan synthesis, and then contributing to the actual inhibitory effects of cilofungin in C. albicans
Interplay between protective and inhibitory antibodies dictates the outcome of experimentally disseminated candidiasis in recipients of a Candida albicans vaccine
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The sequence of the gene coding for the heat shock 70 of Candida albicans for the diagnosis and vaccine development
No full textThe sequence of the gene coding for the heat shock 70 of Candida albicans for the diagnosis and vaccine development
No full textMolecular cloning and expression of a 70-kilodalton heat shock protein of Candida albicans.
No full textBy screening an expression library of the yeast form of Candida albicans with a serum directed against whole fungal cells, a cDNA (2,325 bp) encoding a stress protein of C. albicans was cloned and sequenced. The cloned sequence (CaRLV130) identified a single open reading frame with a length of 1,968 bp coding for a protein containing 656 amino acid residues (70 kDa). The deduced amino acid sequence was 84% similar to the sequence of the Saccharomyces cerevisiae SSA1 gene, which encodes one member of the 70-kDa heat shock protein (Hsp70) family. The relevant gene (C. albicans HSP70 gene [CaHSP70]) was localized on the highest-M(r) (R1; approximately 3.8 Mb) chromosome of C. albicans as determined by pulse-field electrophoresis. CaHSP70 was expressed after heat shock, as demonstrated by Northern (RNA) blotting and reverse transcriptase-PCR with specific pairs of oligonucleotide sequences and gene probes. A recombinant protein was obtained in Escherichia coli after cloning of the full coding sequence into the BamHI site of the pDS56/RBSII6xhisE- plasmid and purification by nickel chelate affinity chromatography. The recombinant protein (6xhis-CaHsp70) was efficiently recognized in immunoblots by a monoclonal antibody directed against a common epitope of eukaryotic Hsp70 proteins, as well as by sera from normal human subjects. Moreover, immune mouse sera against the purified recombinant protein recognized native, heat-inducible constituents with sizes of around 70 kDa in whole-cell protein extracts of C. albicans. Overall, our data demonstrate that CaHSP70 encodes one member of a family of proteins (Hsp70) which usually represent highly conserved immunodominant antigens of infectious agent
Optimised production of an anti-fungal antibody in Solanaceae hairy roots to develop new formulations against Candida albicans
Full text linkBackground: Infections caused by fungi are often refractory to conventional therapies and urgently require the development of novel options, such as immunotherapy. To produce therapeutic antibodies, a plant-based expression platform is an attractive biotechnological strategy compared to mammalian cell cultures. In addition to whole plants, hairy roots (HR) cultures can be used, representing an expression system easy to build up, with indefinite growth while handled under containment conditions. Results: In this study the production in HR of a recombinant antibody, proved to be a good candidate for human immunotherapy against fungal infections, is reported. Expression and secretion of this antibody, in an engineered single chain (scFvFc) format, by HR from Nicotiana benthamiana and Solanum lycopersicum have been evaluated with the aim of directly using the deriving extract or culture medium against pathogenic fungi. Although both Solanaceae HR showed good expression levels (up to 68 mg/kg), an optimization of rhizosecretion was only obtained for N. benthamiana HR. A preliminary assessment to explain this result highlighted the fact that not only the presence of proteases, but also the chemical characteristics of the growth medium, can influence antibody yield, with implications on recombinant protein production in HR. Finally, the antifungal activity of scFvFc 2G8 antibody produced in N. benthamiana HR was evaluated in Candida albicans growth inhibition assays, evidencing encouraging results. Conclusions: Production of this anti-fungal antibody in HR of N. benthamiana and S. lycopersicum elucidated factors affecting pharming in this system and allowed to obtain promising ready-to-use immunotherapeutics against C. albicans
The effect of antymicotics on secretory acid proteinase of Candida albicans.
No full textThe effect of antimycotics on secretory aspartate (acid) proteinase, a virulence enzyme of Candida albicans, was investigated. The conditions of the study were such as to induce proteinase production in the stationary phase of growth (25-40 hours), when no antifungal tested, except the polyene derivative methyl partricin, significantly reduced the viability of the culture. Among azole derivatives, fenticonazole (FZ) but not miconazole, fluconazole or ketoconazole, exerted strong inhibition on proteinase, in typical dose-diphasic pattern, (0.01 microgram/ml; 1-10 micrograms/ml). 5-fluorocytosine (5-FC) was also inhibitory at a dose interval 1-10 micrograms/ml. In all cases, the inhibition concerned the synthesis of the enzyme rather that its activity as suggested by the results of comparative ELISA, SDS-PAGE and spectrophotometric methods of proteinase detection. Finally, the inhibition of proteinase production by FZ and 5-FC mainly reflected the effect of these antimycotics on general protein synthesis
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