<i>In silico</i>and<i>in vitro</i>studies suggest epigallocatechin gallate (EGCG), a polyphenol in green tea, can bind and modulate the aggregation and cytotoxicity of the full-length TDP-43 protein implicated in TDP-43 proteinopathies

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

doi:10.1101/2023.12.22.573011

2023

DOI: 10.1101/2023.12.22.573011

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In silicoandin vitrostudies suggest epigallocatechin gallate (EGCG), a polyphenol in green tea, can bind and modulate the aggregation and cytotoxicity of the full-length TDP-43 protein implicated in TDP-43 proteinopathies

Vini D. Meshram,

Ramkumar Balaji,

Preethi Saravanan

et al.

Abstract: Misfolding and aggregation of TDP-43 protein are implicated in several proteinopathies like ALS and FTLD. Extracellular TDP-43 is also proposed to propagate in a prion-like pathogenic manner to the neighbouring cells. Here, using turbidity and sedimentation assay, we show that a polyphenol in green tea, epigallocatechin gallate (EGCG), can inhibit thein vitroaggregation of the full-length TDP-43 protein. Furthermore, Alexa-Fluor-labelled TDP-43 protein failed to show aggregates in the presence of EGCG in fluor… Show more

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

Meshram,

Balaji,

Saravanan

et al. 2024

Chem Biol Drug Des

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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 binding of EGCG with TDP‐43's aggregation‐prone C‐terminal domain (CTD). Three replicas, each having 800 ns MD simulation of the EGCG‐TDP‐43‐CTD complex, yielded a high negative binding free energy (ΔG) inferring a stable complex formation. Simulation snapshots show that EGCG forms close and long‐lasting contacts with TDP‐43's Phe‐313 and Ala‐341 residues, which were previously identified for monomer recruitment in CTD's aggregation. Notably, stable physical interactions between TDP‐43 and EGCG were also detected in vitro using TTC staining and isothermal titration calorimetry which revealed a high‐affinity binding site of EGCG on TDP‐43 (Kd, 7.8 μM; ΔG, −6.9 kcal/mol). Additionally, TDP‐43 co‐incubated with EGCG was non‐cytotoxic when added to HEK293 cells. In summary, EGCG's binding to TDP‐43 and blocking of residues important for aggregation can be a possible mechanism of its anti‐aggregation effects on TDP‐43.

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

Meshram,

Balaji,

Saravanan

et al. 2024

Chem Biol Drug Des

View full text Add to dashboard Cite

show abstract

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In silicoandin vitrostudies suggest epigallocatechin gallate (EGCG), a polyphenol in green tea, can bind and modulate the aggregation and cytotoxicity of the full-length TDP-43 protein implicated in TDP-43 proteinopathies

Cited by 1 publication

References 58 publications

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

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

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