Computational Insights Into the Mechanism of EGCG's Binding and Inhibition of the TDP‐43 Aggregation

Meshram, Vini D.; Balaji, Ramkumar; Saravanan, Preethi; Subbamanda, Yashashwini; Deeksha, Waghela; Bajpai, Akarsh; Joshi, Himanshu; Bhargava, Anamika; Patel, Basant K.

doi:10.1111/cbdd.14640

Chem Biol Drug Des

2024

DOI: 10.1111/cbdd.14640

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Computational Insights Into the Mechanism of EGCG's Binding and Inhibition of the TDP‐43 Aggregation

Vini D. Meshram,

Ramkumar Balaji,

Preethi Saravanan

et al.

Abstract: Misfolding and aggregation of TAR DNA‐binding protein, TDP‐43, is linked to devastating proteinopathies such as ALS. Therefore, targeting TDP‐43's aggregation is significant for therapeutics. Recently, green tea polyphenol, EGCG, was observed to promote non‐toxic TDP‐43 oligomer formation disallowing TDP‐43 aggregation. Here, we investigated if the anti‐aggregation effect of EGCG is mediated via EGCG's binding to TDP‐43. In silico molecular docking and molecular dynamics (MD) simulation suggest a strong bindin… Show more

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Enhancedin vitroaggregation, but not phase separation, of TDP-43 and its C-terminal fragments generate deep-blue autofluorescence

Saravanan,

Bharathi,

Veerabhadraswamy

et al. 2024

Preprint

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As misfolding and aggregation of the RNA/DNA-binding protein, TDP-43, are linked to devastating TDP-43 proteinopathies like amyotrophic lateral sclerosis (ALS), distinction of the nature of the aggregated TDP-43 species being liquid-like non-pathogenic or solid-like pathogenic is important for mechanistic elucidation and therapeutic targeting. Here, we examined if in vitro enhancement of the TDP-43 aggregation can generate or enhance intrinsic deep-blue autofluorescence (dbAF) previously reported for a few other protein aggregates and whether dbAF is emitted by all or only liquid-like or solid-like TDP-43 aggregates. Using thioflavin-T fluorescence, turbidimetry, atomic force microscopy and fluorescence microscopy of Alexa Fluor-labelled protein, we first tested the in vitro enhancement of the aggregation of the full-length TDP-43 and its two C-terminal fragments (CTFs), TDP-432C (aa: 193-414) and the TDP-43-low complexity domain (LCD) (aa: 274-414). We find that presence of metal ions, Zn2+ or Mn2+, that are also linked to ALS-associated metal dyshomeostasis, or addition of a kosmotropic anion, SO42-, enhance the in vitro solid-like aggregations of the full-length TDP-43 and TDP-432C that also concurrently enhance emission of dbAF. In contrast, Alexa fluor-633-labeled-TDP-43-LCD underwent a quick phase separation into globular structures in presence of Zn2+ ions and the phase-separated species failed to emit dbAF but upon further incubation when matured into solid-like irregular, but non-amyloid nature aggregates, it emitted dbAF. Strikingly, we find that the TDP-43 aggregates of both amyloid and non-amyloid nature, but not the oligomers or the phase-separated droplets of TDP-43, manifest dbAF. Overall, the observed in vitro enhancement of aggregation leading to concurrent enhancement of dbAF can enable a label-free easy detection and may facilitate distinguishing of potentially pathogenic versus non-pathogenic TDP-43 aggregates.

show abstract

Enhancedin vitroaggregation, but not phase separation, of TDP-43 and its C-terminal fragments generate deep-blue autofluorescence

Saravanan,

Bharathi,

Veerabhadraswamy

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

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Computational Insights Into the Mechanism of EGCG's Binding and Inhibition of the TDP‐43 Aggregation

Cited by 1 publication

References 60 publications

Enhancedin vitroaggregation, but not phase separation, of TDP-43 and its C-terminal fragments generate deep-blue autofluorescence

Enhancedin vitroaggregation, but not phase separation, of TDP-43 and its C-terminal fragments generate deep-blue autofluorescence

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