Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90
Drug distribution in the brain is generally associated with an affinity for fatty brain tissues and therefore known to be species- and concentration-independent. We report here the effect of target affinity on brain tissue binding for 10 small molecules designed to inhibit brain heat shock protein 9...
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doaj-bc746fabbc864499855246d15fe4e2872020-11-25T03:57:07ZengMDPI AGPharmaceutics1999-49232020-10-01121009100910.3390/pharmaceutics12111009Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90Lassina Badolo0Kenneth Thirstrup1Søren Møller Nielsen2Ask Püschl3Thomas Jensen4Steve Watson5Christoffer Bundgaard6Translational DMPK, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkNeurodegeneration, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkMolecular Screening and Pharmacology, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkMedicinal Chemistry, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkMedicinal Chemistry, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkMedicinal Chemistry, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkTranslational DMPK, H. Lundbeck A/S, 2500 Copenhagen-Valby, DenmarkDrug distribution in the brain is generally associated with an affinity for fatty brain tissues and therefore known to be species- and concentration-independent. We report here the effect of target affinity on brain tissue binding for 10 small molecules designed to inhibit brain heat shock protein 90 (HSP90), a widespread protein whose expression is 1–2% of total cytosolic proteins in eucaryotes. Our results show that increasing the test item concentrations from 0.3 to 100 µM increased the unbound fraction 32-fold for the most potent molecules, with no change for the inactive one (1.1 fold change). Saturation of HSP90 led to normal concentration-independent brain tissue binding. In vivo pharmacokinetics performed in rats showed that the overall volume of distribution of compounds is correlated with their affinity for HSP90. The in vitro binding and in vivo pharmacokinetics (PK) performed in rats showed that small molecule HSP90 inhibitors followed the principle of target-mediated drug disposition. We demonstrate that assessing unbound fractions in brain homogenate was subject to HSP90 target interference; this may challenge the process of linking systemic-free drug concentrations to central nervous system unbound concentrations necessary to establish the proper pharmacokinetics/pharmacodynamics (PK/PD) relation needed for human dose prediction.https://www.mdpi.com/1999-4923/12/11/1009HSP90small molecule binding brain tissuestarget-mediated brain distribution |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Lassina Badolo Kenneth Thirstrup Søren Møller Nielsen Ask Püschl Thomas Jensen Steve Watson Christoffer Bundgaard |
spellingShingle |
Lassina Badolo Kenneth Thirstrup Søren Møller Nielsen Ask Püschl Thomas Jensen Steve Watson Christoffer Bundgaard Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90 Pharmaceutics HSP90 small molecule binding brain tissues target-mediated brain distribution |
author_facet |
Lassina Badolo Kenneth Thirstrup Søren Møller Nielsen Ask Püschl Thomas Jensen Steve Watson Christoffer Bundgaard |
author_sort |
Lassina Badolo |
title |
Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90 |
title_short |
Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90 |
title_full |
Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90 |
title_fullStr |
Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90 |
title_full_unstemmed |
Target-Mediated Brain Tissue Binding for Small Molecule Inhibitors of Heat Shock Protein 90 |
title_sort |
target-mediated brain tissue binding for small molecule inhibitors of heat shock protein 90 |
publisher |
MDPI AG |
series |
Pharmaceutics |
issn |
1999-4923 |
publishDate |
2020-10-01 |
description |
Drug distribution in the brain is generally associated with an affinity for fatty brain tissues and therefore known to be species- and concentration-independent. We report here the effect of target affinity on brain tissue binding for 10 small molecules designed to inhibit brain heat shock protein 90 (HSP90), a widespread protein whose expression is 1–2% of total cytosolic proteins in eucaryotes. Our results show that increasing the test item concentrations from 0.3 to 100 µM increased the unbound fraction 32-fold for the most potent molecules, with no change for the inactive one (1.1 fold change). Saturation of HSP90 led to normal concentration-independent brain tissue binding. In vivo pharmacokinetics performed in rats showed that the overall volume of distribution of compounds is correlated with their affinity for HSP90. The in vitro binding and in vivo pharmacokinetics (PK) performed in rats showed that small molecule HSP90 inhibitors followed the principle of target-mediated drug disposition. We demonstrate that assessing unbound fractions in brain homogenate was subject to HSP90 target interference; this may challenge the process of linking systemic-free drug concentrations to central nervous system unbound concentrations necessary to establish the proper pharmacokinetics/pharmacodynamics (PK/PD) relation needed for human dose prediction. |
topic |
HSP90 small molecule binding brain tissues target-mediated brain distribution |
url |
https://www.mdpi.com/1999-4923/12/11/1009 |
work_keys_str_mv |
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