Amyloid-selective catalytic photo-oxygenation of the tau protein is a possible therapeutic strategy for Alzheimer's disease, via the inhibition of tau fibril formation.
A combination of time-resolved optical spectroscopy and
nanoscale
imaging has been used to study the complex binding to amyloids of
a photocatalyst that selectively photo-oxygenates pathogenic aggregates,
as well as the consequences of its irradiation. Correlative atomic
force microscopy (AFM) and fluorescence microscopy reveals topography-dependent
binding of the dye to model β-lactoglobulin fibers, which may
also explain the observed difference in their response to photodegradation.
We provide direct evidence of the photosensitization of singlet oxygen
by the photocatalyst bound to amyloid fibers by direct detection of
its NIR phosphorescence. The effect of singlet oxygen at the molecular
level brings about nanoscale morphological changes that can be observed
with AFM at the single-fiber level. We also find differential response
of two α-synuclein mutants to photodamage, which can be rationalized
by the presence of amino acids susceptible to photo-oxygenation. Overall,
our results help to unravel some of the complexity associated with
highly heterogeneous amyloid populations and contribute to the development
of improved phototherapeutic strategies for amyloid-related disorders.
Chemo-and site-selective hydrosilylation of αor β-hydroxy amides using organocatalyst B(C 6 F 5 ) 3 and commercially available hydrosilanes is described. This transformation is operative under mild conditions and tolerates a wide range of functional groups. The reaction was applied for selective reduction of a specific amide group of the therapeutically important cyclic peptide cyclosporin A, demonstrating the potential usefulness of this catalytic method in late-stage structural transformations of drug lead molecules.
Boron-dipyrromethenes (BODIPYs) are one of the most important fluorescent materials. Despite their potential unique properties, however, B,B-fluoro-organo BODIPYs (BFR-BODIPYs) possessing an organo group (R) on the boron center have not been studied in detail, due in part to challenges related to their synthesis. In this paper, a convergent synthesis of BFR-BODIPYs operative under mild conditions is reported. Conversions of the thus-synthesized functionalized BFR-BODIPYs by cross-coupling, condensation, and S N 2 reactions at the R group are also demonstrated.
Misfolded proteins produce aberrant fibrillar aggregates, called amyloid, that contain cross-beta-sheet higher order structures. The species generated in the aggregation processes (i.e., oligomers, protofibrils, and fibrils) are cytotoxic and can...
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