Prakash Saudagar scite author profile

The use of remdesivir to treat COVID-19 will likely continue before clinical trials are completed. Due to the lengthening pandemic and evolving nature of the virus, predicting potential residues prone to mutation is crucial for the management of remdesivir resistance. Using a rational ligand-based interface design complemented with mutational mapping, we generated a total of 100,000 mutations and provided insight into the functional outcomes of mutations in the remdesivir-binding site in nsp12 subunit of RdRp. After designing 46 residues in the remdesivir-binding site of nsp12, the designs retained 97%-98% sequence identity, suggesting that very few mutations in nsp12 are required for SARS-CoV-2 to attain remdesivir resistance. Several mutants displayed decreased binding affinity to remdesivir, suggesting drug resistance. These hotspot residues had a higher probability of undergoing selective mutation and thus conferring remdesivir resistance. Identifying the potential residues prone to mutation improves our understanding of SARS-CoV-2 drug resistance and COVID-19 pathogenesis.

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Amyloid Cross-Seeding: Mechanism, Implication, and Inhibition

Subedi

Sasidharan

Nag

et al. 2022

Molecules

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Most neurodegenerative diseases such as Alzheimer’s disease, type 2 diabetes, Parkinson’s disease, etc. are caused by inclusions and plaques containing misfolded protein aggregates. These protein aggregates are essentially formed by the interactions of either the same (homologous) or different (heterologous) sequences. Several experimental pieces of evidence have revealed the presence of cross-seeding in amyloid proteins, which results in a multicomponent assembly; however, the molecular and structural details remain less explored. Here, we discuss the amyloid proteins and the cross-seeding phenomena in detail. Data suggest that targeting the common epitope of the interacting amyloid proteins may be a better therapeutic option than targeting only one species. We also examine the dual inhibitors that target the amyloid proteins participating in the cross-seeding events. The future scopes and major challenges in understanding the mechanism and developing therapeutics are also considered. Detailed knowledge of the amyloid cross-seeding will stimulate further research in the practical aspects and better designing anti-amyloid therapeutics.

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Miltefosine‐unresponsive Leishmania donovani has a greater ability than miltefosine‐responsive L. donovani to resist reactive oxygen species

et al. 2013

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Resistance of Leishmania parasites to miltefosine, which is only available oral drug, is a great concern. We have analyzed global gene expression profiles of miltefosine-unresponsive and miltefosine-responsive Leishmania donovani in order to understand the various metabolic processes involved in miltefosine drug resistance. The microarray data clearly indicated a role of oxidative metabolism in miltefosine resistance. Furthermore, fluorescence microscopy experiments suggested that miltefosine-unresponsive L. donovani resists the accumulation of reactive oxygen species and subsequent mitochondrial membrane damage leading to apoptotic death. In contrast, in miltefosine-responsive L. donovani, the accumulation of reactive oxygen species causes apoptotic death. Overall, this study provides fundamental insights into miltefosine resistance in L. donovani.

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Molecular mechanism underlying antileishmanial effect of oxabicyclo[3.3.1]nonanones: Inhibition of key redox enzymes of the pathogen

Saudagar

Saha

Saikia

et al. 2013

European Journal of Pharmaceutics and Biopharmaceutics

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