The premelanosomal protein (Pmel17) is a human functional amyloid that promotes pigmentation by serving as a scaffold for melanin polymerization. This occurs within the melanosome, where Pmel17 is first proteolyzed into smaller domain(s) that are responsible for fibril formation. Our work has shown that the Pmel17 repeat domain (RPT, residues 315-444) forms amyloid fibrils in vitro under acidic conditions similar to those found in melanosomes. Mechanistically, this is driven by the protonation of acidic residues, resulting in charge neutralization and subsequent aggregation. Interestingly, the deprotonation of acidic residues leads to rapid disaggregation, highlighting a reversible mechanism of fibril formation and dissolution thus far only observed for functional amyloid proteins. In this chapter, we describe how to monitor pH-dependent RPT aggregation and disaggregation using extrinsic thioflavin-T and intrinsic tryptophan fluorescence, respectively. These methods can also be adapted more broadly to investigate the reversibility of other amyloid systems, both functional and pathogenic.
Keywords: Aggregation; Disaggregation; Functional amyloid; Kinetics; Thioflavin-T; Tryptophan.
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