Litcius/Paper detail

A Comparative Photophysical Study of Structural Modifications of Thioflavin T-Inspired Fluorophores

Lisa-Maria Needham, Judith Weber, Colin M. Pearson, T. Dung, Felix Gorka, Guanpeng Lyu, Sarah E. Bohndiek, Thomas N. Snaddon, Steven F. Lee

2020The Journal of Physical Chemistry Letters28 citationsDOIOpen Access PDF

Abstract

Its properties as a molecular rotor result in a large-scale (∼1000-fold) fluorescence turn-on upon binding to β-sheets in amyloidogenic proteins. However, the complex photophysics of ThT combined with the intricate and varied nature of the amyloid binding motif means these interactions are poorly understood. To study this important class of fluorophores, we present a detailed photophysical characterization and comparison of a novel library of 12 ThT-inspired fluorescent probes for amyloid protein (PAPs), where both the charge and donor capacity of the heterocyclic and aminobenzene components have been interrogated, respectively. This enables direct photophysical juxtaposition of two structural groups: the neutral "PAP" (class 1) and the charged "mPAP" fluorophores (class 2). We quantify binding and optical properties at both the bulk and single-aggregate levels with some derivatives showing higher aggregate affinity and brightness than ThT. Finally, we demonstrate their abilities to perform super-resolution imaging of α-synuclein fibrils with localization precisions of ∼16 nm. The properties of the derivatives provide new insights into the relationship between chemical structure and function of benzothiazole probes.

Topics & Concepts

ThioflavinFluorescenceChemistryMaterials scienceOpticsPhysicsMedicineAlzheimer's diseaseDiseasePathologyLanthanide and Transition Metal ComplexesMolecular Sensors and Ion DetectionElectron Spin Resonance Studies