Abstract
Anionic pentameric thiophene acetates can be used for fluorescence detection and diagnosis of protein amyloid aggregates. Replacing the central thiophene unit by benzothiadiazole (BTD) or quinoxaline (QX) leads to large emission shifts and basic spectral features have been reported [Chem. Eur. J. 2015, 21, 15133‐13137]. Here we present new detailed experimental results of solvent effects, time‐resolved fluorescence and examples employing multi‐photon microscopy and lifetime imaging. Quantum chemical response calculations elucidate how the introduction of the BTD/QX groups changes the electronic states and emissions. The dramatic red‐shift follows an increased conjugation and quinoid character of the π‐electrons of the thiophene backbone. An efficient charge transfer in the excited states S1 and S2 compared to the all‐thiophene analogue makes these more sensitive to the polarity and quenching by the solvent. Taken together, the results guide in the interpretation of images of stained Alzheimer disease brain sections employing advanced fluorescence microscopy and lifetime imaging, and can aid in optimizing future fluorescent ligand development.
Highlights
Thiophene-based pentameric ligands with donor acceptor donor (D A D) type electronic structures based on benzothiadiazole (BTD) and quinoxaline (QX) as the central heterocyclic moiety were used to identify a variety of amyloids and carbohydrates
We examine the detailed photophysical properties of thiophene-based D A D pentameric ligands by using different solvents and both time and spectrally resolved methods, including the characterization of protein aggregates with advanced microscopic modes of detection, such as twophoton absorption (TPA)[6b] and fluorescence lifetime imaging microscopy (FLIM).[13]
As it was recently shown that HS-84 and HS-169 can be utilized for longitudinal in vivo imaging of protein aggregates,[10] we examined the multiphoton characteristics of the ligands bound to Aβ-deposits in brain tissue sections from APPPS1 transgenic mice with Alzheimer’s disease (AD)-like pathology
Summary
The preparation of the fluorescent ligands HS-84, HS-167 and HS-169 was previously reported along with their basic excitation and emission properties in PBS as well as mixed with amyloid fibrils.[9]. The experimental results form the basis for the theoretical investigation to be presented and discussed in more detail in subsections to appear after the presentation of new experimental results
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