AbstractAcanthamoeba castellanii, cause of keratitis and blindness, is an emerging pathogen because of its association with contact lens use. The cyst wall contributes to pathogenesis as cysts are resistant to sterilizing reagents in lens solutions and to antibiotics applied to the eye. Here we used structured illumination microscopy (SIM) and probes for glycopolymers to show that purified cyst walls ofA. castellaniiretain endocyst and ectocyst layers and conical structures (ostioles) that connect them. Mass spectrometry showed candidate cyst wall proteins (CWPs) are dominated by three families of lectins (named here Luke, Leo, and Jonah), because each binds to microcrystalline cellulose +/- chitin. Luke lectins contain two or three carbohydrate-binding modules (CBM49), which were first identified in a tomato cellulase. Leo lectins have two unique domains with eight Cys residues each (8-Cys) +/- a Thr-, Lys-, and His-rich spacer. Jonah lectins contain one or three choice-of-anchor A (CAA) domains previously of unknown function. Representative members of each family were tagged with green fluorescent protein (GFP) and expressed under their own promoters in transfected parasites. A representative Jonah lectin with one CAA domain is made early during encystation and localizes to the ectocyst layer. In contrast, Leo and Luke lectins are made later and localize to the endocyst layer and ostioles. Probes for CWPs (anti-GFP antibodies) and for glycopolymers (maltose-binding protein-fusions with CWPs) suggest Jonah lectin and the glycopolymers to which it binds are accessible in the ectocyst layer, while Luke and Leo lectins and their epitopes are mostly inaccessible in the ectocyst layer and ostioles. In summary, the most abundantA. castellaniiCWPs are three sets of lectins, which have conserved (CBM49s of Luke), newly characterized (CAA of Jonah), or unique carbohydrate-binding modules (8-Cys of Jonah).Author summaryFifty years ago, the cyst wall ofAcanthamoeba castellaniiwas shown to contain cellulose and have an ectocyst layer, an endocyst layer, and conical ostioles that attach them. The goals here were to identify abundant cyst wall proteins (CWPs) and begin to determine how the wall is assembled. We used wheat germ agglutinin to show cyst walls also contain chitin fibrils. When trophozoites are starved of nutrients, they become immotile and make CWPs and glycopolymers in dozens of small vesicles. The primordial cyst wall is composed of a single, thin layer containing cellulose, chitin, and an abundant CWP we called Jonah. The primordial wall also has small, flat ostioles that contain another abundant CWP we called Luke. Jonah (the best candidate for diagnostic antibodies) is accessible in the ectocyst layer of mature cyst walls, while Luke and a third abundant CWP we termed Leo are present but mostly inaccessible in the endocyst layer and ostioles. WhileA. castellaniicyst walls contain cellulose (like plants) and chitin (like fungi), the glycopolymers are made in vesicles rather than at the plasma membrane, and the CWPs (Luke, Leo, and Jonah lectins) are unique to the protist.
The use of fluorescent protein-tagged carbohydrate-binding modules to evaluate the influence of drying on cellulose accessibility and enzymatic hydrolysis
