Deep blue autofluorescence reveals the instability of human transthyretin.

Abstract Wild-type human transthyretin (TTR) is a tetrameric protein that transports thyroxine and retinol in the blood and brain. However, a number of mutations or aging leads to destabilization of the quaternary structure of TTR, which results in dissociation of TTR tetramers to monomers, followed by oligomerization and subsequent amyloid formation. TTR amyloid is a pathogenic factor underlying several diseases. It has recently been documented that destabilization of the structure of TTR is driven by Ca2+. The present work shows that the in vitro redox conditions contribute to the destabilization and formation of the highly unstable substoichiometric population(s) of TTR molecules. Importantly, destabilized TTR forms acquire the ability to emit fluorescence in the blue range of the light spectrum. Dithiothreitol (DTT), in the presence of Ca2+, enhances the formation of complex autofluorophore which displays maxima at 417 nm and 438 nm in the emission spectrum of TTR.