AUTHOR=Golan Nimrod , Schwartz-Perov Sergei , Landau Meytal , Lipke Peter N. 

TITLE=Structure and Conservation of Amyloid Spines From the Candida albicans Als5 Adhesin

JOURNAL=Frontiers in Molecular Biosciences

VOLUME=9

YEAR=2022

URL=https://www.frontiersin.org/journals/molecular-biosciences/articles/10.3389/fmolb.2022.926959

DOI=10.3389/fmolb.2022.926959

ISSN=2296-889X

ABSTRACT=<p><italic>Candida</italic> Als family adhesins mediate adhesion to biological and abiotic substrates, as well as fungal cell aggregation, fungal-bacterial co-aggregation and biofilm formation. The activity of at least two family members, Als5 and Als1, is dependent on amyloid-like protein aggregation that is initiated by shear force. Each Als adhesin has a ∼300-residue N-terminal Ig-like/invasin region. The following 108-residue, low complexity, threonine-rich (T) domain unfolds under shear force to expose a critical amyloid-forming segment <sup>322</sup>SNGIVIVATTRTV<sup>334</sup> at the interface between the Ig-like/invasin domain 2 and the T domain of C<italic>andida albicans</italic> Als5. Amyloid prediction programs identified six potential amyloidogenic sequences in the Ig-like/invasin region and three others in the T domain of <italic>C. albicans</italic> Als5. Peptides derived from four of these sequences formed fibrils that bound thioflavin T, the amyloid indicator dye, and three of these revealed atomic-resolution structures of cross-β spines. These are the first atomic-level structures for fungal adhesins. One of these segments, from the T domain, revealed kinked β-sheets, similarly to LARKS (Low-complexity, Amyloid-like, Reversible, Kinked segments) found in human functional amyloids. Based on the cross-β structures in Als proteins, we use evolutionary arguments to identify functional amyloidogenic sequences in other fungal adhesins, including adhesins from <italic>Candida auris</italic>. Thus, cross-β structures are often involved in fungal pathogenesis and potentially in antifungal therapy.</p>