An Efficient Synthetic Method and Theoretical Calculations of Olmesartan Methyl Ether: Study of Biological Function of AT1 Antagonism

An Efficient Synthetic Method and Theoretical Calculations of Olmesartan Methyl Ether: Study of Biological Function of AT1 Antagonism

The dissolution of the antihypertensive AT1 antagonist olmesartan in methanol generates in situ a new highly bioactive methyl ether analogue via S N 1 mechanism involving an intramolecular proton transfer from carboxyl to hydroxyl group. Theoretical calculations confirmed the thermodynamic control p...

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Veröffentlicht in:Combinatorial chemistry & high throughput screening 2014-01, Vol.17 (8), p.652-662
Hauptverfasser: Ntountaniotis, Dimitrios, Agelis, George, Resvani, Amalia, Halabalaki, Maria, Liapakis, George, Spyridaki, Katerina, Grdadolnik, Simona Golic, Merzel, Franci, Kostidis, Sarantos, Potamitis, Constantinos, Tselios, Theodore, Matsoukas, John, Skaltsounis, Leandros Alexios, Mavromoustakos, Thomas
Format: Artikel
Sprache:eng
Schlagworte:
Angiotensin Receptor Antagonists - chemical synthesis
Angiotensin Receptor Antagonists - chemistry
Antihypertensive Agents - chemical synthesis
Antihypertensive Agents - chemistry
Imidazoles - chemical synthesis
Imidazoles - chemistry
Models, Theoretical
Molecular Structure
Tetrazoles - chemical synthesis
Tetrazoles - chemistry
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Zusammenfassung:The dissolution of the antihypertensive AT1 antagonist olmesartan in methanol generates in situ a new highly bioactive methyl ether analogue via S N 1 mechanism involving an intramolecular proton transfer from carboxyl to hydroxyl group. Theoretical calculations confirmed the thermodynamic control preference of methyl ether versus the antagonistic product methyl ester. ? facile synthetic method for olmesartan methyl ether from olmesartan or olmesartan medoxomil is also described. Interestingly, the introduction of the methyl group to olmesartan did not alter its pharmacological properties. This observation opens new avenues in the synthesis of novel drugs, since hydroxyl and carboxylate groups have an orthogonal relationship in many drugs.
ISSN:1386-2073
1875-5402
DOI:10.2174/138620731708140922171503