The Role of Water Networks in Phosphodiesterase Inhibitor Dissociation and Kinetic Selectivity

Blaazer, Antoni R.; Singh, Abhimanyu K.; Zara, Lorena; Boronat, Pierre; Bautista, Lady J.; Irving, Steve; Majewski, Maciej; Barril, Xavier; Wijtmans, Maikel; Danielson, Helena; Sterk, Geert Jan; Leurs, Rob; van Muijlwijk-Koezen, Jacqueline E.; Brown, David G.; de Esch, Iwan J. P.

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The Role of Water Networks in Phosphodiesterase Inhibitor Dissociation and Kinetic Selectivity

Blaazer, Antoni R.

Vrije Univ Amsterdam, Amsterdam Inst Mol & Life Sci AIMMS, Div Med Chem, Boelelaan 1108, NL-1081 HZ Amsterdam, Netherlands.;Vrije Univ Amsterdam, Amsterdam Inst Mol & Life Sci AIMMS, Div Innovat Human Hlth & Life Sci iH2LS, Boelelaan 1108, NL-1081 HZ Amsterdam, Netherlands..

Singh, Abhimanyu K.

Univ Kent, Sch Biosci, Canterbury CT2 7NJ, England.;Sri Balaji Vidyapeeth Deemed Univ, Mahatma Gandhi Med Adv Res Inst MGMARI, Pondicherry 607402, India..ORCID-id: 0000-0002-9998-020X

Zara, Lorena

Vrije Univ Amsterdam, Amsterdam Inst Mol & Life Sci AIMMS, Div Med Chem, Boelelaan 1108, NL-1081 HZ Amsterdam, Netherlands..ORCID-id: 0000-0003-1158-6134

Boronat, Pierre

Vrije Univ Amsterdam, Amsterdam Inst Mol & Life Sci AIMMS, Div Med Chem, Boelelaan 1108, NL-1081 HZ Amsterdam, Netherlands..

Vise andre og tillknytning

2024 (engelsk)Inngår i: ChemMedChem, ISSN 1860-7179, E-ISSN 1860-7187, Vol. 19, nr 22, artikkel-id e202400417Artikkel i tidsskrift (Fagfellevurdert) Published

Abstract [en]

In search of new opportunities to develop Trypanosoma brucei phosphodiesterase B1 (TbrPDEB1) inhibitors that have selectivity over the off-target human PDE4 (hPDE4), different stages of a fragment-growing campaign were studied using a variety of biochemical, structural, thermodynamic, and kinetic binding assays. Remarkable differences in binding kinetics were identified and this kinetic selectivity was explored with computational methods, including molecular dynamics and interaction fingerprint analyses. These studies indicate that a key hydrogen bond between GlnQ.50 and the inhibitors is exposed to a water channel in TbrPDEB1, leading to fast unbinding. This water channel is not present in hPDE4, leading to inhibitors with a longer residence time. The computer-aided drug design protocols were applied to a recently disclosed TbrPDEB1 inhibitor with a different scaffold and our results confirm that shielding this key hydrogen bond through disruption of the water channel represents a viable design strategy to develop more selective inhibitors of TbrPDEB1. Our work shows how computational protocols can be used to understand the contribution of solvent dynamics to inhibitor binding, and our results can be applied in the design of selective inhibitors for homologous PDEs found in related parasites.

sted, utgiver, år, opplag, sider

John Wiley & Sons, 2024. Vol. 19, nr 22, artikkel-id e202400417

Emneord [en]

Inhibitors, Selectivity, Kinetics, Structure-based drug discovery, Computer-aided drug design

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URN: urn:nbn:se:uu:diva-548578DOI: 10.1002/cmdc.202400417ISI: 001361747100014PubMedID: 39193819Scopus ID: 2-s2.0-85210040670OAI: oai:DiVA.org:uu-548578DiVA, id: diva2:1931976

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EU, FP7, Seventh Framework Programme, 602666EU, Horizon 2020, 675899Tilgjengelig fra: 2025-01-28 Laget: 2025-01-28 Sist oppdatert: 2025-02-20bibliografisk kontrollert

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Blaazer, Antoni R.

Singh, Abhimanyu K.

Zara, Lorena

Boronat, Pierre

Bautista, Lady J.

Irving, Steve

Majewski, Maciej

Barril, Xavier

Wijtmans, Maikel