Drug Discovery in Low Data Regimes: Leveraging a Computational Pipeline for the Discovery of Novel SARS-CoV-2 Nsp14-MTase Inhibitors

Nigam, AkshatKumar; Hurley, Matthew F. D.; Li, Fengling; Konkoľová, Eva; Klíma, Martin; Trylčová, Jana; Pollice, Robert; Çinaroğlu, Süleyman Selim; Levin-Konigsberg, Roni; Handjaya, Jasemine; Schapira, Matthieu; Chau, Irene; Perveen, Sumera; Ng, Ho-Leung; Ümit Kaniskan, H.; Han, Yulin; Singh, Sukrit; Gorgulla, Christoph; Kundaje, Anshul; Jin, Jian; Voelz, Vincent A.; Weber, Jan; Nencka, Radim; Boura, Evzen; Vedadi, Masoud; Aspuru-Guzik, Alán

doi:10.1101/2023.10.03.560722

Cited by 1 publication

(2 citation statements)

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“…It is speculated that introducing a physically larger substituent at the C7 position may enhance efficacy and selectivity for Nsp14 compared to the nitrile group. 136 The binding mode of SS148 with Nsp16 is similar to SAH (Figure 4C,D). WZ16's additional aminomethyl forming a hydrogen bond with N43 contributes to stabilizing the Nsp16-RNA-WZ16 ternary complex (Figure 4E,F).…”

Section: Dual-target Inhibitors Of Sars-cov-2mentioning

confidence: 59%

“…The crystal structure of SS148 and Nsp14 (Figure A,B) reveals a significant space at the C7 position of Nsp14. It is speculated that introducing a physically larger substituent at the C7 position may enhance efficacy and selectivity for Nsp14 compared to the nitrile group . The binding mode of SS148 with Nsp16 is similar to SAH (Figure C,D).…”

Section: Dual-target Inhibitors Of Sars-cov-2mentioning

confidence: 85%

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New Strategies for Responding to SARS-CoV-2: The Present and Future of Dual-Target Drugs

Zhang,

Xiao,

et al. 2024

J. Med. Chem.

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The 2019 coronavirus disease (COVID-19) pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has resulted in millions of deaths, posing a serious threat to public health and safety. Rapid mutations of SARS-CoV-2 and complex interactions among multiple targets during infection pose a risk of expiry for small molecule inhibitors. This suggests that the traditional concept of "one bug, one drug" could be ineffective in dealing with the coronavirus. The dual-target drug strategy is expected to be the key to ending coronavirus infections. However, the lack of design method and improper combination of dual-targets poses obstacle to the discovery of new dual-target drugs. In this Perspective, we summarized the profiles concerning drug design methods, structure−activity relationships, and pharmacological parameters of dual-target drugs for the treatment of COVID-19. Importantly, we underscored how target combination and rational drug design illuminate the development of dualtarget drugs for SARS-CoV-2. ■ SIGNIFICANCE• This is the first Perspective on dual-target drugs for treating coronavirus. • Dual-target drugs, acting on multiple pathways, offer enhanced efficacy and can delay resistance compared to single-target treatments. • Drug repurposing for dual-target design can significantly shorten the timeline for clinical trials, addressing urgent medication needs during the early COVID-19 outbreak. • The introduction of covalent warheads can compensate for active site similarity issues, aiding in the development of high-affinity dual-target inhibitors.

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Section: Dual-target Inhibitors Of Sars-cov-2mentioning

confidence: 59%

Section: Dual-target Inhibitors Of Sars-cov-2mentioning

confidence: 85%