Casey T. Nishiya scite author profile

The complement system has an important role in host resistance to systemic candidiasis but regulation of complement activation by C. albicans remains poorly defined. Previous studies have identified a requirement for naturally occurring antimannan IgG antibody in initiation of C3 opsonization of C. albicans through either the classical or alternative pathway. This study characterized antibodydependent initiation of the alternative pathway using the recombinant human monoclonal antimannan Fab fragment M1 and its full-length IgG1 antibody M1g1. Kinetic analysis of C3b deposition onto C. albicans with flow cytometry demonstrated the ability of M1g1 to restore the activity of either the classical or alternative pathway to the yeast-absorbed normal human serum, but the Fc-free M1 Fab restored only the activity of the alternative pathway. This Fc-independent, antimannan Fabmediated C3 deposition through the alternative pathway was also observed in a serum-free assay containing the six alternative pathway proteins and in C1q-or C2-depleted serum but not in factor B-depleted serum. M1-or M1g1-dependent alternative pathway initiation of C3b deposition occurred in an asynchronous manner at discrete sites that expanded to cover the entire cell surface over time as revealed with immunofluorescence microscopy, in contrast to a uniform appearance of initial C3 deposition through the classical pathway. Furthermore, antimannan Fab M1 promoted the assembly of the alternative pathway convertase on the cell surface seen as colocalization of C3 and factor B with immunofluorescence microscopy. Thus, human antimannan antibody has a distinct Fcindependent effector function in regulation of C3 deposition to C. albicans.

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Influence of Mannan and Glucan on Complement Activation and C3 Binding byCandida albicans

Boxx

Kozel

Nishiya

et al. 2010

Infect Immun

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The complement system is important for host resistance to hematogenously disseminated candidiasis. However, modulation of complement activation by cell wall components of Candida albicans has not been characterized. Although intact yeast display mannan on the surface, glucan, typically located in the interior, becomes exposed during C. albicans infection. We show here the distinct effects of mannan and glucan on complement activation and opsonophagocytosis. Previous studies showed that intact cells are resistant to initiation of complement activation through the alternative pathway, and antimannan antibody reverses this resistance via an Fc-independent mechanism. The present study shows that this mannan-dependent resistance can be overcome by periodate-borohydride conversion of mannose polysaccharides to polyalcohols; cells treated with periodate-borohydride initiate the alternative pathway without the need for antibody. These observations identify an inhibitory role for intact mannan in complement activation. Next, removal of the surface-displayed mannan by acid treatment of periodate-borohydride cells exposes glucan. Glucan-displaying cells or purified ␤-glucan initiate the alternative pathway when incubated with the purified proteins of the alternative pathway alone, suggesting that C. albicans glucan is a natural activator of the alternative pathway. Finally, ingestion of mannan-displaying cells by human neutrophils requires anti-mannan antibody, whereas ingestion of glucan-displaying cells requires complement. These results demonstrate a contrasting requirement of natural antibody and complement for opsonophagocytosis of C. albicans cells displaying mannan or glucan. Thus, differential surface expression of mannan and glucan may influence recognition of C. albicans by the complement system.

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Influence of IgG Subclass on Human Antimannan Antibody-Mediated Resistance to Hematogenously Disseminated Candidiasis in Mice

et al. 2016

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bCandida albicans is a yeast-like pathogen and can cause life-threatening systemic candidiasis. Its cell surface is enriched with mannan that is resistant to complement activation. Previously, we developed the recombinant human IgG1 antimannan antibody M1g1. M1g1 was found to promote complement activation and phagocytosis and protect mice from systemic candidiasis. Here, we evaluate the influence of IgG subclass on antimannan antibody-mediated protection. Three IgG subclass variants of M1g1 were constructed: M1g2, M1g3, and M1g4. The IgG subclass identity for each variant was confirmed with DNA sequence and subclass-specific antibodies. These variants contain identical M1 Fabs and exhibited similar binding affinities for C. albicans yeast and purified mannan. Yeast cells and hyphae recovered from the kidney of antibody-treated mice with systemic candidiasis showed uniform binding of each variant, indicating constitutive expression of the M1 epitope and antibody opsonization in the kidney. All variants promoted deposition of both murine and human C3 onto the yeast cell surface, with M1g4 showing delayed activation, as determined by flow cytometry and immunofluorescence microscopy. M1g4-mediated complement activation was found to be associated with its M1 Fab that activates the alternative pathway in an Fc-independent manner. Treatment with each subclass variant extended the survival of mice with systemic candidiasis (P < 0.001). However, treatment with M1g1, M1g3, or M1g4, but not with M1g2, also reduced the kidney fungal burden (P < 0.001). Thus, the role of human antimannan antibody in host resistance to systemic candidiasis is influenced by its IgG subclass.

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Casey T. Nishiya

Characteristics of Fc-independent human antimannan antibody-mediated alternative pathway initiation of C3 deposition to Candida albicans

Influence of Mannan and Glucan on Complement Activation and C3 Binding byCandida albicans

Influence of IgG Subclass on Human Antimannan Antibody-Mediated Resistance to Hematogenously Disseminated Candidiasis in Mice

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