Silvia Sandini

Human domain antibodies against virulence traits of Candida albicans inhibit fungus adherence to vaginal epithelium and protect against experimental vaginal candidiasis.

Antibody variable domains (domain antibodies [DAbs]) are genetically engineered antibody fragments that include individual heavy-chain (VH) or kappa-chain (Vkappa) variable domains and lack the Fc region. Human DAbs against the 65-kDa mannoprotein (MP65) or the secretory aspartyl proteinase (SAP)-2 of Candida albicans (monospecific DAbs) or against both fungal antigens (heterodimeric, bispecific DAbs) were generated from phage expression libraries. Both monospecific and bispecific DAbs inhibited fungus adherence to the epithelial cells of rat vagina and accelerated the clearance of vaginal infection with the fungus. When heterodimeric DAbs were used, the clearance of infection was at least equivalent to treatment with fluconazole. The in vivo protective effects of DAbs were demonstrated by both pre- and postchallenge schedules of DAb administration and with both fluconazole-susceptible and fluconazole-resistant strains of C. albicans. This is the first demonstration that human DAbs lacking the Fc constituent can efficiently control an infection and can act largely by inhibiting adherence.

The 65 kDa mannoprotein gene of Candida albicans encodes a putative beta-glucanase adhesin required for hyphal morphogenesis and experimental pathogenicity.

Mannoproteins are fungal cell wall components which play a main role in host–parasite relationship. Camp65p is a putative β‐glucanase mannoprotein of 65 kDa which has been characterized as a main target of human immune response against Candida albicans. However, nothing is known about its specific contribution to the biology and virulence of this fungus. We constructed CAMP65 knock‐out mutants including null camp65/camp65 and CAMP65/camp65 heterozygous strains. The null strains had the same growth rate and morphology under yeast form as the wild‐type strain but they were severely affected in hyphal morphogenesis both in vitro and in vivo. Hyphae formation was restored in revertant strains. The null mutants lost adherence to the plastic, and this was in keeping with the strong inhibition of fungal cell adherence to plastic exerted by anti‐Camp65p antibodies. The null mutants were also significantly less virulent than the parental strains, and this loss of virulence was observed both in systemic and in mucosal C. albicans infection models. Nonetheless, the virulence in both infectious models was regained by the CAMP65 revertants. Thus, CAMP65 of C. albicans encodes a putative β‐glucanase, mannoprotein adhesin, which has a dual role (hyphal cell wall construction and virulence), accounting for the particular relevance of host immune response against this mannoprotein.

Generation of a Recombinant 65-Kilodalton Mannoprotein, a Major Antigen Target of Cell-Mediated Immune Response to Candida albicans

ABSTRACT A 65-kDa mannoprotein (CaMp65) has long been studied as a major, immunodominant antigen of the human opportunistic pathogenCandida albicans. An expression library of C. albicans was screened with serum from mice immunized with ScMp65 (ScW10), a Saccharomyces cerevisiae recombinant protein of about 48 kDa. This serum recognized the CaMp65 from a cell wall extract of C. albicans. After cloning and sequencing of the relevant C. albicans cDNA, an open reading frame encoding a protein of 379 amino acids was identified. Its deduced amino acid sequence showed regions of identity with all previously characterized tryptic fragments of CaMp65, as well as with the corresponding regions of ScMp65. A prepeptide of 32 amino acids with signal peptidase and Kex2 cleavage sites as well as a high number of potential O-glycosylation sites but no N-glycosylation sites or GPI anchor were observed in sequence studies of CaMp65. A putative adhesin RGD sequence was also present in the C-terminal region of the molecule. This triplet was absent in the ScMp65. The relevant gene (designatedCaMP65) was localized to chromosome R of C. albicans as determined by pulse-field gel electrophoresis. Northern blot analysis demonstrated that gene transcription was heat inducible and associated with germ-tube formation by the fungus. A recombinant, His6-tagged protein (rCaMp65) was expressed inEscherichia coli under an inducible promoter. After purification by nickel-chelate affinity chromatography, the recombinant product was detected as a 47-kDa protein band in immunoblots with the anti-ScMp65 serum, as well as with CaMp65-specific monoclonal antibodies. Both ScMp65 and CaMp65 were assayed for antigenic stimulation in cultures of peripheral blood mononuclear cells (PBMC) from 10 unselected human donors. While ScMp65 was substantially nonstimulatory, both rCaMp65 and the native CaMp65 were equally able to induce lymphoproliferation of the PBMC from all the donors. In addition, a number of CD4+ T-cell clones were generated using a C. albicans mannoprotein fraction as an antigenic stimulant. Several of these clones specifically responded to both the native and the recombinant C. albicans Mp65 but not to ScMp65. Thus, the recombinant Mp65 of C. albicans retains antigenicity and, as such, could be a valid, standardized reagent for serodiagnostic and immunological studies.

A highly immunogenic recombinant and truncated protein of the secreted aspartic proteases family (rSap2t) of Candida albicans as a mucosal anticandidal vaccine

Sap2 (secreted aspartyl proteinase2) is a member of the Sap family of Candida albicans, a human opportunistic pathogen, which acts as a virulence factor in experimental animal models of mucosal candidiasis. The C. albicans SAP2 was subcloned into vector pDS56-RBSII-6xhis, under the control of an inducible promoter to produce a truncated 6xhis-tagged, enzymatically inactive Sap2, lacking the N-terminus 76 amino acids (rSap2t). This recombinant protein was purified to homogeneity by one-step nickel-chelate affinity chromatography and used to immunize intravaginally oophorectomized estradiol-treated rats. These animals raised local anti-rSap2t immunoglobulin G (IgG) and IgA antibodies and were protected from the challenge of a highly vaginopathic strain of the fungus. Protection was possibly due to the specific antibodies as suggested by the passive transfer of immune vaginal fluid and the protective effects of passive vaccination with anti-rSap2t IgM and IgG monoclonal antibodies. Hence, this new recombinant proteinase constitutes a novel tool to investigate mechanisms of anti-Candida protection at the vaginal level and as vaccination against vaginal candidiasis, a common, frequently recurrent and sometimes antimycotic-refractory infection in women.

A virosomal vaccine against candidal vaginitis: Immunogenicity, efficacy and safety profile in animal models

A novel vaccine (PEV7) consisting of a truncated, recombinant aspartyl proteinase-2 of Candida albicans incorporated into influenza virosomes was studied. This vaccine candidate generated a potent serum antibody response in mouse and rat following intramuscular immunization. Anti-Sap2 IgG and IgA were also detected in the vaginal fluid of rats following intravaginal or intramuscular plus intravaginal administration. In a rat model of candidal vaginitis, PEV7 induced significant, long-lasting, likely antibody-mediated, protection following intravaginal route of immunization. PEV7 was also found to be safe in a repeated-dose toxicological study in rats. Overall, these data provide a sound basis to envisage the clinical development of this new candidate vaccine against candidal vaginitis.

IMMUNOGENICITY AND PROTECTIVE EFFECT OF RECOMBINANT ENOLASE OF CANDIDA ALBICANS IN A MURINE MODEL OF SYSTEMIC CANDIDIASIS

Enolase, a 46-kDa glycolytic enzyme, is an immunodominant antigen of the opportunistic pathogen Candida albicans. A recombinant 6 x His-tagged enolase was studied, in conjunction with interleukin-12 (IL-12), as an adjuvant for cytokine induction favouring protection in a murine model of haematogenous candidiasis. Mice immunized with enolase plus IL-12 showed increased antibody titres against enolase, as well as increased median survival time and decreased fungal burden in kidneys, in comparison to non-immunized or IL-12-treated mice. This increased survival was attributable to enolase-induced cell-mediated immunity as it also occurred in B-cell-deficient mice. Enolase immunization stimulated a predominant T-helper-1 (Th1) cytokine pattern in splenic cells and induced production of interferon-gamma (IFN-gamma) and interleukin-2 (IL-2) by purified CD4+ T cells. However, despite the elevation of immunogenicity, recombinant enolase induced only a modest protection against disseminated candidiasis, suggesting a form of protection likely attributable to the induction of a Th1 cell-mediated immune response.

A Candida albicans Mannoprotein Deprived of Its Mannan Moiety Is Efficiently Taken Up and Processed by Human Dendritic Cells and Induces T-Cell Activation without Stimulating Proinflammatory Cytokine Production

ABSTRACT Mannoproteins are cell wall components of pathogenic fungi and play major virulence and immunogenic roles with both their mannan and protein moieties. The 65-kDa mannoprotein (MP65) of Candida albicans is a β-glucanase adhesin recognized as a major target of the human immune response against this fungus, and its recombinant product (rMP65; devoid of the mannan moiety) is presently under consideration as a vaccine candidate. Here we investigated cellular and molecular aspects of the interaction of rMP65 with human antigen-presenting cells. We also assessed the ability of rMP65 to initiate a T-cell response. Both the native mannosylated MP65 (nMP65) and the recombinant product were efficiently bound and taken up by macrophages and dendritic cells. However, contrarily to nMP65, rMP65 did not induce tumor necrosis factor alpha and interleukin-6 release from these cells. On the other hand, rMP65 was rapidly endocytosed by both macrophages and dendritic cells, in a process involving both clathrin-dependent and clathrin-independent mechanisms. Moreover, the RGD sequence inhibited rMP65 uptake to some extent. After internalization, rMP65 partially colocalized with lysosomal membrane-associated glycoproteins 1 and 2. This possibly resulted in efficient protein degradation and presentation to CD4+ T cells, which proliferated and produced gamma interferon. Collectively, these results demonstrate that the absence of the mannan moiety does not deprive MP65 of the capacity to initiate the pattern of cellular and molecular events leading to antigen presentation and T-cell activation, which are essential features for further consideration of MP65 as a potential vaccine candidate.

THE MP65 GENE IS REQUIRED FOR CELL WALL INTEGRITY, ADHERENCE TO EPITHELIAL CELLS AND BIOFILM FORMATION IN CANDIDA ALBICANS

BackgroundThe MP65 gene of Candida albicans (orf19.1779) encodes a putative β-glucanase mannoprotein of 65 kDa, which plays a main role in a host-fungus relationship, morphogenesis and pathogenicity. In this study, we performed an extensive analysis of a mp65Δ mutant to assess the role of this protein in cell wall integrity, adherence to epithelial cells and biofilm formation.ResultsThe mp65Δ mutant showed a high sensitivity to a range of cell wall-perturbing and degrading agents, especially Congo red, which induced morphological changes such as swelling, clumping and formation of hyphae. The mp65Δ mutant showed an activation of two MAPKs (Mkc1p and Cek1p), a high level of expression of two stress-related genes (DDR48 and SOD5), and a modulated expression of β-glucan epitopes, but no gross changes in cell wall polysaccharide composition. Interestingly, the mp65Δ mutant displayed a marked reduction in adhesion to BEC and Caco-2 cells and severe defects in biofilm formation when compared to the wild type. All of the mentioned properties were totally or partially recovered in a revertant strain, demonstrating the specificity of gene deletion.ConclusionsWe demonstrate that the MP65 gene of Candida albicans plays a significant role in maintaining cell wall integrity, as well as in adherence to epithelia and biofilm formation, which are major virulence attributes of this fungus.

Rapid, simple, and low-cost identification of Candida species using high-resolution melting analysis

The feasibility of using high-resolution melting analysis (HRMA) was examined for its rapid and simple detection of 5 clinically relevant Candida species (C. albicans, C. glabrata, C. kefyr, C. parapsilosis, and C. guilliermondii). HRMA was able to differentiate clinical Candida species and resulted in being sensitive, reproducible, and inexpensive.

Generation of a highly immunogenic recombinant enolase of the human opportunistic pathogen Candida albicans

Enolase, a 46 kDa glycolytic enzyme, is an immunodominant antigen of Candida albicans, an important human opportunistic pathogen. The full‐length coding sequence of C. albicans enolase gene was subcloned into the prokaryotic expression vector pDS56/RBSII, His6/E− under the control of an inducible promoter to produce a His6‐tagged enolase. The recombinant protein was purified to homogeneity by one‐step nickel‐chelate affinity chromatography. It was recognized by a monoclonal antibody specific for C. albicans enolase, as well as by anti‐enolase antibodies present in human sera (IgG). The recombinant protein promptly elicited antibody in mice and detected immune responses in normal human subjects that were comparable to those generated by the native C. albicans enolase. Thus this new recombinant enolase constitutes a valuable reagent for studying the possible role of this protein in anti‐Candida immune response.