Targeting the main protease (Mpro, nsp5) by growth of fragment scaffolds exploiting structure-based methodologies

Altincekic, Nadide; Jores, Nathalie; Löhr, Frank; Richter, Christian; Ehrhardt, Claus; Blommers, Marcel J. J.; Berg, Hannes; Öztürk, Sare; Gande, Santosh L.; Linhard, Verena; Orts, Julien; Abi Saad, Marie Jose; Bütikofer, Matthias; Kaderli, Janina; Karlsson, B. Göran; Brath, Ulrika; Hedenström, Mattias; Gröbner, Gerhard; Sauer, Uwe H.; Perrakis, Anastassis; Langer, Julian; Banci, Lucia; Cantini, Francesca; Fragai, Marco; Grifagni, Deborah; Barthel, Tatjana; Wollenhaupt, Jan; Weiss, Manfred S.; Robertson, Angus; Bax, Adriaan; Sreeramulu, Sridhar; Schwalbe, Harald

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Targeting the main protease (M^pro, nsp5) by growth of fragment scaffolds exploiting structure-based methodologies

Altincekic, Nadide

Institute for Organic Chemistry and Chemical Biology, Goethe University Frankfurt am Main, Frankfurt, Germany; Center of Biomolecular Magnetic Resonance (BMRZ), Goethe University Frankfurt am Main, Frankfurt, Germany.

Jores, Nathalie

Löhr, Frank

Center of Biomolecular Magnetic Resonance (BMRZ), Goethe University Frankfurt am Main, Frankfurt, Germany; Institute of Biophysical Chemistry, Goethe University Frankfurt am Main, Frankfurt, Germany.

Richter, Christian

Ehrhardt, Claus

Blommers, Marcel J. J.

Berg, Hannes

Öztürk, Sare

Gande, Santosh L.

Linhard, Verena

Orts, Julien

Abi Saad, Marie Jose

Bütikofer, Matthias

Kaderli, Janina

Karlsson, B. Göran

Brath, Ulrika

Hedenström, Mattias

Gröbner, Gerhard

Sauer, Uwe H.

Perrakis, Anastassis

Langer, Julian

Banci, Lucia

Cantini, Francesca

Fragai, Marco

Grifagni, Deborah

Barthel, Tatjana

Wollenhaupt, Jan

Weiss, Manfred S.

Robertson, Angus

Bax, Adriaan

Sreeramulu, Sridhar

Schwalbe, Harald

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2024 (English)In: ACS Chemical Biology, ISSN 1554-8929, E-ISSN 1554-8937, Vol. 19, no 2, p. 563-574Article in journal (Refereed) Published

Abstract [en]

The main protease M^pro, nsp5, of SARS-CoV-2 (SCoV2) is one of its most attractive drug targets. Here, we report primary screening data using nuclear magnetic resonance spectroscopy (NMR) of four different libraries and detailed follow-up synthesis on the promising uracil-containing fragment Z604 derived from these libraries. Z604 shows time-dependent binding. Its inhibitory effect is sensitive to reducing conditions. Starting with Z604, we synthesized and characterized 13 compounds designed by fragment growth strategies. Each compound was characterized by NMR and/or activity assays to investigate their interaction with M^pro. These investigations resulted in the four-armed compound 35b that binds directly to M^pro. 35b could be cocrystallized with M^pro revealing its noncovalent binding mode, which fills all four active site subpockets. Herein, we describe the NMR-derived fragment-to-hit pipeline and its application for the development of promising starting points for inhibitors of the main protease of SCoV2.

Place, publisher, year, edition, pages

American Chemical Society (ACS), 2024. Vol. 19, no 2, p. 563-574

National Category

Biochemistry Molecular Biology

Identifiers

URN: urn:nbn:se:umu:diva-220471DOI: 10.1021/acschembio.3c00720ISI: 001162216100001PubMedID: 38232960Scopus ID: 2-s2.0-85183508732OAI: oai:DiVA.org:umu-220471DiVA, id: diva2:1838232

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EU, Horizon 2020, 871037EU, Horizon 2020, 101094131Science for Life Laboratory, SciLifeLabKnut and Alice Wallenberg Foundation, 2020.0182Available from: 2024-02-15 Created: 2024-02-15 Last updated: 2025-02-20Bibliographically approved

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Hedenström, Mattias Gröbner, Gerhard Sauer, Uwe H.

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