| Literature DB >> 32931274 |
Florian Kleemiss1,2, Aileen Justies3, Daniel Duvinage1, Patrick Watermann4, Eric Ehrke4, Kunihisa Sugimoto5,6, Malte Fugel1, Lorraine A Malaspina1,2, Anneke Dittmer1, Torsten Kleemiss1, Pim Puylaert1, Nelly R King3, Anne Staubitz7, Thomas M Tzschentke8, Ralf Dringen4, Simon Grabowsky1,2, Jens Beckmann1,3.
Abstract
The synthesis, characterization, biological activity, and toxicology of sila-ibuprofen, a silicon derivative of the most common nonsteroidal anti-inflammatory drug, is reported. The key improvements compared with ibuprofen are a four times higher solubility in physiological media and a lower melting enthalpy, which are attributed to the carbon-silicon switch. The improved solubility is of interest for postsurgical intravenous administration. A potential for pain relief is rationalized via inhibition experiments of cyclooxygenases I and II (COX-I and COX-II) as well as via a set of newly developed methods that combine molecular dynamics, quantum chemistry, and quantum crystallography. The binding affinity of sila-ibuprofen to COX-I and COX-II is quantified in terms of London dispersion and electrostatic interactions in the active receptor site. This study not only shows the potential of sila-ibuprofen for medicinal application but also improves our understanding of the mechanism of action of the inhibition process.Entities:
Year: 2020 PMID: 32931274 DOI: 10.1021/acs.jmedchem.0c00813
Source DB: PubMed Journal: J Med Chem ISSN: 0022-2623 Impact factor: 7.446