Anti-Candidaalbicans germ tube antibodies reduce in vitro growth and biofilm formation of C. albicans / Los anticuerpos dirigidos contra los tubos germinales de Candida albicans reducen el crecimiento in vitro y la formación de biopelículas de C. albicans

Background: Invasive candidiasis by Candida albicans is associated with high morbidity and mortality, due in part to the late implementation of an appropriate antifungal therapy hindered by the lack of an early diagnosis. Aims: We aimed to evaluate the in vitro antifungal activity of the antibodies against C. albicans germ tubes (CAGTA) raised in a rabbit model of candidemia. Methods: We measured the effect of CAGTA activity by colorimetric XTT and crystal violet assays, and colony forming units count, both on C. albicans planktonic cells and during the course of biofilm formation and maturation. Viability and cell morphology were assessed by optical, fluorescent or scanning electron microscopy. Results: CAGTA ≥ 50 μg/ml caused a strong inhibition of C. albicans blastospores growth, and DiBAC fluorescent staining evidenced a fungicidal activity. Moreover, electron microscopy images revealed that CAGTA induced morphological alterations of the surface of C. albicans germ tubes grown free as well as in biofilm. Interestingly, CAGTA ≥ 80 μg/ml reduced the amount of C. albicans biofilm, and this effect started at the initial adhesion stage of the biofilm formation, during the first 90 min. Conclusions: This is the first report showing that CAGTA reduce C. albicans growth, and impair its metabolic activity and ability to form biofilm in vitro. The antigens recognized by CAGTA could be the basis for the development of immunization protocols that might protect against Candida infections

Antecedentes: La infección invasora por Candida albicans está asociada a altas tasas de morbimortalidad, en parte debido al retraso en la instauración de una terapia antifúngica adecuada, dificultada a su vez por la falta de un diagnóstico precoz. Objetivos: Evaluar la actividad antifúngica de los anticuerpos contra tubos germinales de C. albicans (CAGTA) obtenidos a partir de un modelo animal de candidemia en conejo. Métodos. El efecto de los CAGTA se evaluó mediante los ensayos colorimétricos XTT y cristal violeta, así como mediante el recuento de unidades formadoras de colonias, tanto en células planctónicas de C. albicans como en distintos estadios de formación y maduración de biopelículas. La viabilidad y la morfología de las células tratadas con CAGTA se determinó mediante microscopía óptica, de fluorescencia o electrónica (SEM). Resultados: Concentraciones de CAGTA ≥ 50 μg/ml generaban una fuerte inhibición del crecimiento de C. albicans, y su actividad se mostró fungicida. Los CAGTA producían alteraciones en la superficie de los tubos germinales desarrollados tanto a partir de células en suspensión como de células en biopelículas. Además, concentraciones de CAGTA ≥ 80 μg/ml redujeron la biomasa de biopelículas de Candida, y este efecto se desencadenaba en los primeros 90min de su formación. Conclusiones: Este es el primer estudio que demuestra la capacidad de los CAGTA para reducir el crecimiento de C. albicans y su actividad metabólica, así como para alterar la formación de biopelículas in vitro. Los antígenos reconocidos por los CAGTA podrían servir de base para el desarrollo de protocolos de inmunización protectores frente a infecciones por Candida

Anti-Candidaalbicans germ tube antibodies reduce in vitro growth and biofilm formation of C. albicans.

BACKGROUND: Invasive candidiasis by Candida albicans is associated with high morbidity and mortality, due in part to the late implementation of an appropriate antifungal therapy hindered by the lack of an early diagnosis. AIMS: We aimed to evaluate the in vitro antifungal activity of the antibodies against C. albicans germ tubes (CAGTA) raised in a rabbit model of candidemia. METHODS: We measured the effect of CAGTA activity by colorimetric XTT and crystal violet assays, and colony forming units count, both on C. albicans planktonic cells and during the course of biofilm formation and maturation. Viability and cell morphology were assessed by optical, fluorescent or scanning electron microscopy. RESULTS: CAGTA ≥50µg/ml caused a strong inhibition of C. albicans blastospores growth, and DiBAC fluorescent staining evidenced a fungicidal activity. Moreover, electron microscopy images revealed that CAGTA induced morphological alterations of the surface of C. albicans germ tubes grown free as well as in biofilm. Interestingly, CAGTA ≥80µg/ml reduced the amount of C. albicans biofilm, and this effect started at the initial adhesion stage of the biofilm formation, during the first 90min. CONCLUSIONS: This is the first report showing that CAGTA reduce C. albicans growth, and impair its metabolic activity and ability to form biofilm in vitro. The antigens recognized by CAGTA could be the basis for the development of immunization protocols that might protect against Candida infections.

Cyclophilin and enolase are the most prevalent conidial antigens of Lomentospora prolificans recognized by healthy human salivary IgA and cross-react with Aspergillus fumigatus.

PURPOSE: The study of the immunocompetent airways immune response may provide important information to improve the therapeutic efficacy against Lomentospora (Scedosporium) prolificans. So, this study aimed to identify the most prevalent conidial antigens of this multiresistant fungus recognized by healthy human salivary immunoglobulin A, and to study their expression and cross-reactivity with other fungal species. EXPERIMENTAL DESIGN: Twenty saliva from immunocompetent donors were used to detect and identify the immunoreactive proteins by 2D immunoblotting and LC-MS/MS. Moreover, anti-Aspergillus antibodies were purified to study their cross-reactivity. RESULTS: Ten proteins of L. prolificans conidia showed reactivity with more than 50% of the saliva samples. Among them, cyclophilin and enolase were the most prevalent antigens recognized by 85 and 80% of the samples, respectively. These enzymes were also identified on the cell wall surface of L. prolificans and on the immunomes of Scedosporium apiospermum and Scedosporium aurantiacum. Additionally, they showed cross-reactivity with the most common pathogenic filamentous fungus Aspergillus fumigatus. CONCLUSION AND CLINICAL RELEVANCE: These results show that the immunocompetent immune response might offer a pan-fungal recognition of conserved antigens such as enolase and cyclophilins, making them potential candidates for study as therapeutic targets.

Identification of superficial Candida albicans germ tube antigens in a rabbit model of disseminated candidiasis. A proteomic approach.

The diagnosis of invasive candidiasis remains a clinical challenge. The detection by indirect immunofluorescence of Candida albicans germ-tube-specific antibodies (CAGTA), directed against germ-tube surface antigens, is a useful diagnostic tool that discriminates between colonization and invasion. However, the standardization of this technique is complicated by its reliance on subjective interpretation. In this study, the antigenic recognition pattern of CAGTA throughout experimental invasive candidiasis in a rabbit animal model was determined by means of 2D-PAGE, Western blotting, and tandem mass spectrometry (MS/MS). Seven proteins detected by CAGTA were identified as methionine synthase, inositol-3-phosphate synthase, enolase 1, alcohol dehydrogenase 1,3-phosphoglycerate kinase, 14-3-3 (Bmhl), and Egd2. To our knowledge, this is the first report of antibodies reacting with Bmhl and Egd2 proteins in an animal model of invasive candidiasis. Although all of the antigens were recognized by CAGTA in cell-wall dithiothreitol extracts of both germ tubes and blastospores of C. albicans, immunoelectron microscopy study revealed their differential location, as the antigens were exposed on the germ-tube cell-wall surface but hidden in the inner layers of the blastospore cell wall. These findings will contribute to developing more sensitive diagnostic methods that enable the earlier detection of invasive candidiasis.

Candida antigens and immune responses: implications for a vaccine.

Superficial candidiasis of the oral cavity, vagina and the skin are common mild infections though they may be recalcitrant, as in the case of recurrent vaginitis or denture stomatitis. However, in debilitated people with immune deficiencies, Candida can cause serious invasive infections with high mortality. Both types of patients could benefit from the development of vaccines and monoclonal or polyclonal antibodies of utility for a passive immunization, according to their immune status. Several antigens as mannans, ß-glucans, various adhesins, heat shock protein 90 and acid secreted proteinases can be very useful for the vaccines development. There is a broad and sound experience with many of these antigens in animal models, mainly in rabbits and mice. However, only two vaccines, based on recombinant antigens (rAls3p-N and rSap2t) are currently being tested in clinical trials.

Identification of superficial Candida albicans germ tube antigens in a rabbit model of disseminated candidiasis. A proteomic approach

The diagnosis of invasive candidiasis remains a clinical challenge. The detection by indirect immunofluorescence of Candida albicans germ-tube-specific antibodies (CAGTA), directed against germ-tube surface antigens, is a useful diagnostic tool that discriminates between colonization and invasion. However, the standardization of this technique is complicated by its reliance on subjective interpretation. In this study, the antigenic recognition pattern of CAGTA throughout experimental invasive candidiasis in a rabbit animal model was determined by means of 2D-PAGE, Western blotting, and tandem mass spectrometry (MS/MS). Seven proteins detected by CAGTA were identified as methionine synthase, inositol-3-phosphate synthase, enolase 1, alcohol dehydrogenase 1,3-phosphoglycerate kinase, 14-3-3 (Bmh1), and Egd2. To our knowledge, this is the first report of antibodies reacting with Bmh1 and Egd2 proteins in an animal model of invasive candidiasis. Although all of the antigens were recognized by CAGTA in cell-wall dithiothreitol extracts of both germ tubes and blastospores of C. albicans, immunoelectron microscopy study revealed their differential location, as the antigens were exposed on the germ-tube cell-wall surface but hidden in the inner layers of the blastospore cell wall. These findings will contribute to developing more sensitive diagnostic methods that enable the earlier detection of invasive candidiasis (AU)

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Scedosporium prolificans immunomes against human salivary immunoglobulin A.

The filamentous fungus Scedosporium prolificans is an emerging multidrug resistant pathogen related to serious infections mainly affecting immunocompromised individuals. Considering that it is frequently isolated from anthropic environments and penetrates mainly through the airways, the human mucosal immune system may play an important protective role against S. prolificans. To advance in the search for biomarkers and targets both for diagnosis and treatment, we analysed the S. prolificans immunomes recognized by human salivary Immunoglobulin A. Using indirect immunofluorescence, it was observed that conidia were strongly recognized, while hyphae were not. By 2-D immunoblotting and peptide mass fingerprinting, 25 immunodominant antigens in conidia and 30 in hyphae were identified. These included catalase, putative glyceronetransferase, translation elongation factor-1α, serine/threonine protein kinase, putative superoxide dismutase, putative mitochondrial cyclophilin 1 and peptidyl-prolyl cis-trans isomerase in conidiospores, and putative Hsp60, ATP synthase ß chain, 40S ribosomal protein S0, citrate synthase and putative ATP synthase in hyphae. The functional study showed that metabolism - and protein fate - related enzymes were the most abundant antigens in conidia, whereas metabolism - , translation - , or energy production - related enzymes were in hyphae. The immunogenic proteins identified are proposed as candidates for the development of novel diagnostic tools or therapeutic strategies.

Potential of anti-Candida antibodies in immunoprophylaxis.

The need for new options for the treatment of invasive candidiasis has fuelled the use of antibodies in combination with conventional antifungal therapy. After a long period of time in which antibodies were considered irrelevant in the resistance against invasive candidiasis, it was demonstrated that a number of antibodies or their engineered derivatives directed against Candida albicans cell-wall polysaccharides and glycopeptides, as well as against some protein epitopes, confer protection against invasive candidiasis. This has confirmed this approach as a new strategy for the prophylaxis of invasive candidiasis. Of particular interest is Mycograb, a human recombinant monoclonal antibody that inhibits heat shock protein 90, and has been administrated in combination with lipid-associated amphotericin B to patients with invasive candidiasis, and the fungicidal anti-beta-glucan antibodies induced by the glycoconjugate vaccine composed of a beta-glucan polysaccharide conjugated with the diphtheria toxoid CRM 197. However, despite the promising data obtained in vitro and in animal models, at present there is very little clinical experience on the use of antibodies in Candida immunoprophylaxis.

[Selection and implantation of yeast strains of genus Saccharomyces at a winery regulated by Appellation Contrôlée "Chacolí de Vizcaya/Bizkaiko Txakolina"]. / Selección e implantación de cepas de levadura del género Saccharomyces en la producción de vinos de la Denominación de Origen (DO) Chacolí de Vizcaya/Bizkaiko Txakolina.

The white wine Chacolía de Vizcaya/Bizkaiko Txakolina is characteristic from The Basque Country region and regulated under Appellation Contrôlée standards (BOPV 14/6/94). The objective of this study was the identification and selection of autochthonous yeast strains, to improve the conditions used to maintain the typical characteristics of this region wines. Yeasts identified as Saccharomyces bayanus isolated around these fields from 1996 to 1998, were subjected to a selective procedure based on enological characteristics and fermentative behaviour. Three of the selected strains were used to inoculate, at winery scale, two grape juice varieties accepted by the Appellation Contrôlée (Hondarrabi Zuri and Folle Blanche). The inoculated strains on the respective vinifications was followed by restriction fragment length polymorphism of mitochondrial DNA (REAmt) method with AluI enzyme, due to their specificity, short outcome, and technological simplicity compared with other molecular typing methods such as: chromosomal karyotyping analyzed by pulsed field gel electrophoresis, Random Amplified Polymorphic DNA-PCR (RAPD-PCR) and restriction fragment length polymorphism using the infrequently cutting enzyme SfiI (REA infrequent). This study demonstrated that strains with different phenotypic traits could show indistinguishable restriction patterns with REAmt, but could be discriminated using other typing methods such as RAPD-PCR, which although showing low reproducibility could be used as complementary to REAmt. Our results demonstrate that in spite of using autochthonous selected strains, the inoculation of musts with a particular strain do not guarantee its predominance and driving fermentation features. Of all yeast strains studied, strain no. 2 showed the best results in sensory testing and at the implantation process. Therefore, it could be used with commercial purposes for the production of Chacolí de Vizcaya/Bizkaiko Txakolina, especially when using musts from Folle Blanche.

In vitro survival and germination of Candida albicans in the presence of nitrogen compounds.

The in vitro effect of nitric oxide (NO) and nitrite on blastoconidia and hyphae of Candida albicans was studied. Sodium nitroprusside (SNP) and S-nitroso-N-acetylpenicillamine (SNAP) were used as NO donors. Both minimal and complex media at two pH values, 7.0 and 4.5, were used for the assays. Blastoconidia were more susceptible than hyphae to NO. The NO effect on blastoconidia was greater at acidic pH. Nitrite affected the viability of blastoconidia in complex medium. The percentage germination and the relative rate of elongation of hyphae were both enhanced when NO was present in acidic conditions.