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Theoretical evaluation of a bulky ortho-thioalkyl-azobenzene as an alternative to photocontrol structural cytotoxic effects of metal-free and disulfide oxidized hSOD1 in pathogenesis of ALS

This study presents a novel photopharmacological strategy to mitigate the cytotoxic effects of apo-hSOD1S–S, a misfolded protein implicated in neurodegenerative diseases. Using quantum chemical calculations and molecular dynamics simulations, we… Click to show full abstract

This study presents a novel photopharmacological strategy to mitigate the cytotoxic effects of apo-hSOD1S–S, a misfolded protein implicated in neurodegenerative diseases. Using quantum chemical calculations and molecular dynamics simulations, we demonstrate that ortho-thio-substituted azobenzene photoswitches (ortho-TABPs) can be employed to precisely modulate the dynamics of the crucial electrostatic loop (EL) in apo-hSOD1S–S. We establish that larger ortho-S-alkyl substituents on the ortho-TABP enhance its redox stability, favouring the cis conformation through the modulation of the position of the n → π* transition. This stability is crucial for operation within the reducing cellular environment. Furthermore, we demonstrate the successful and consistent photomodulation of EL conformational dynamics in apo-hSOD1S–S through covalent tethering of an ortho-TABP. This control is achieved by leveraging the thermodynamically stable trans conformation of the photoswitch, which allosterically influences the EL and consequently, the geometry of the Zn-binding site, a critical determinant of apo-hSOD1S–S cytotoxicity. This work paves the way for developing targeted therapies for neurodegenerative diseases by demonstrating the precise and effective photomodulation of apo-hSOD1S–Svia rationally designed ortho-TABPs.

Keywords: apo hsod1s; cytotoxic effects; evaluation bulky; bulky ortho; theoretical evaluation

Journal Title: RSC Advances
Year Published: 2025

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