Fragment binding to the Nsp3 macrodomain of SARS-CoV-2 identified through crystallographic screening and computational docking

Schuller, M.; Correy, G.J.; Gahbauer, Stefan; Fearon, D.; Wu, Taiasean; Díaz, Roberto; Young, I.D.; Martins, Luan Carvalho; Smith, Derek T.; Schulze‐Gahmen, Ursula; Owens, Tristan W.; Deshpande, Ishan; Merz, Gregory E.; Thwin, Aye C.; Biel, J.T.; Peters, Jessica K.; Moritz, Michelle; Herrera, Nadia; Kratochvil, Huong T.; Aimon, Anthony; Bennett, James M.; Neto, José Brandão; Cohen, Aina E.; Dias, A.; Douangamath, A.; Dunnett, L.; Fedorov, Oleg; Ferla, Matteo P.; Fuchs, Martin R.; Gorrie-Stone, T.J.; Holton, James M.; Johnson, Michael G.; Krojer, T.; Meigs, G.; Powell, A.J.; Rack, J.G.M.; Rangel, V.L.; Russi, Silvia; Skyner, R.; Smith, Clyde A.; Soares, Alexei S.; Wierman, Jennifer L.; Zhu, Kang; O’Brien, Peter; Jura, Natalia; Ashworth, Alan; Irwin, John J.; Thompson, Michael C.; Gestwicki, Jason E.; Delft, F. von; Shoichet, Brian K.; Fraser, James S.; Ahel, Ivan

doi:10.1126/sciadv.abf8711

Cited by 125 publications

(235 citation statements)

References 83 publications

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“…While the exponential increase in speed of structure determination is not reflected in the largely bystander role of PC,i ntegration of HT PX with HT synthesis of more complex molecules than fragments could help to advance early drug discovery.W es howed how HT synthesis can advantageously synergize with HT crystallography to yield single digit mMhits for the SARS-CoV-2 main protease with avariety of warheads involved in covalent bond formation, derived from newly synthesized libraries.T his is conceptually different from the mostly performed approach of cocrystallizing or soaking existing static fragment libraries of low complexity. [10,11] Fort his,w ed eveloped an ovel, general, highly diverse multicomponent method for the onepot synthesis of acyl amides and esters,based on the building blocks acrylic acid, ammonia, aldehydes,a nd isocyanides. Noteworthy many substrates with different functional groups are compatible with the reaction and show good product formation.…”

Section: Discussionmentioning

confidence: 99%

“…[10] HT soaking of static fragment libraries is nowadays routinely offered to clients at synchrotrons (Figure 1B). [10,11] These advances have been driven by the work of thousands of members of the structural biology community globally. [12] On the other hand there are tremendous developments in miniaturization and automation of synthetic chemistry.…”

Section: Introductionmentioning

confidence: 99%

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Combining High‐Throughput Synthesis and High‐Throughput Protein Crystallography for Accelerated Hit Identification

et al. 2021

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Protein crystallography (PX) is widely used to drive advanced stages of drug optimization or to discover medicinal chemistry starting points by fragment soaking. However, recent progress in PX could allow for a more integrated role into early drug discovery. Here, we demonstrate for the first time the interplay of high throughput synthesis and high throughput PX. We describe a practical multicomponent reaction approach to acrylamides and ‐esters from diverse building blocks suitable for mmol scale synthesis on 96‐well format and on a high‐throughput nanoscale format in a highly automated fashion. High‐throughput PX of our libraries efficiently yielded potent covalent inhibitors of the main protease of the COVID‐19 causing agent, SARS‐CoV‐2. Our results demonstrate, that the marriage of in situ HT synthesis of (covalent) libraires and HT PX has the potential to accelerate hit finding and to provide meaningful strategies for medicinal chemistry projects.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Combining High‐Throughput Synthesis and High‐Throughput Protein Crystallography for Accelerated Hit Identification

et al. 2021

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“…Some viral families, mainly Coronaviruses, Togaviruses and Herpesviridae, possess macrodomain proteins that bind both MAR and PAR units, hydrolysing them. Studies have since corroborated the functional significance in tandem with the structural characterization of these macrodomains in modulating PARP catalytic activity to mediate viral replication and pathogenesis (Li et al, 2016;Abraham et al, 2018;Grunewald et al, 2019a,b;Alhammad and Fehr, 2020;Rack et al, 2020;Schuller et al, 2021). These studies not only strongly implicate PARPs as a modulatory target that can be utilised by pathogens during infection to evade immune response and drive replication, they also underscore the significance of these viral macrodomains as targets for pioneering therapeutic strategies to combat pathogenicity, particularly in the context of SARS-CoV2 which has been recently presented (Rack et al, 2020;Schuller et al, 2021).…”

Section: Basis For Parp Involvement In Pathogenic Infectionsmentioning

confidence: 92%

NAD+ Degrading Enzymes, Evidence for Roles During Infection

Tan

Doig

2021

Front. Mol. Biosci.

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Declines in cellular nicotinamide adenine dinucleotide (NAD) contribute to metabolic dysfunction, increase susceptibility to disease, and occur as a result of pathogenic infection. The enzymatic cleavage of NAD+ transfers ADP-ribose (ADPr) to substrate proteins generating mono-ADP-ribose (MAR), poly-ADP-ribose (PAR) or O-acetyl-ADP-ribose (OAADPr). These important post-translational modifications have roles in both immune response activation and the advancement of infection. In particular, emergent data show viral infection stimulates activation of poly (ADP-ribose) polymerase (PARP) mediated NAD+ depletion and stimulates hydrolysis of existing ADP-ribosylation modifications. These studies are important for us to better understand the value of NAD+ maintenance upon the biology of infection. This review focuses specifically upon the NAD+ utilising enzymes, discusses existing knowledge surrounding their roles in infection, their NAD+ depletion capability and their influence within pathogenic infection.

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“…In the processes of viral infection, the Mac1 domain counteracts host-mediated antiviral adenosine diphosphate-ribosylation signaling via its ADP-ribosyl hydrolase activity. 164 , 165 Accordingly, catalytic null mutations of the Mac1 domain render viruses nonpathogenic, 164 – 166 and the Mac1 domain is a promising drug target for disrupting the viral life cycle. The Mac1 domain adopts a conserved three-layered α/β/α sandwich fold, in which there is a central seven-stranded β-sheet (β1-β2-β7-β6-β3-β5-β4), and six α-helices are located on the outside.…”

Section: Nonstructural Proteins Of Sras-cov-2mentioning

confidence: 99%

Structural biology of SARS-CoV-2: open the door for novel therapies

Zheng

Zeng

et al. 2022

Sig Transduct Target Ther

193

149

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Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2) is the causative agent of the pandemic disease COVID-19, which is so far without efficacious treatment. The discovery of therapy reagents for treating COVID-19 are urgently needed, and the structures of the potential drug-target proteins in the viral life cycle are particularly important. SARS-CoV-2, a member of the Orthocoronavirinae subfamily containing the largest RNA genome, encodes 29 proteins including nonstructural, structural and accessory proteins which are involved in viral adsorption, entry and uncoating, nucleic acid replication and transcription, assembly and release, etc. These proteins individually act as a partner of the replication machinery or involved in forming the complexes with host cellular factors to participate in the essential physiological activities. This review summarizes the representative structures and typically potential therapy agents that target SARS-CoV-2 or some critical proteins for viral pathogenesis, providing insights into the mechanisms underlying viral infection, prevention of infection, and treatment. Indeed, these studies open the door for COVID therapies, leading to ways to prevent and treat COVID-19, especially, treatment of the disease caused by the viral variants are imperative.

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Fragment binding to the Nsp3 macrodomain of SARS-CoV-2 identified through crystallographic screening and computational docking

Cited by 125 publications

References 83 publications

Combining High‐Throughput Synthesis and High‐Throughput Protein Crystallography for Accelerated Hit Identification

Combining High‐Throughput Synthesis and High‐Throughput Protein Crystallography for Accelerated Hit Identification

NAD+ Degrading Enzymes, Evidence for Roles During Infection

Structural biology of SARS-CoV-2: open the door for novel therapies

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