321936-54-3Relevant academic research and scientific papers
Searching for new antiarrhythmic agents: Evaluation of meta- hydroxymexiletine enantiomers
Catalano, Alessia,Budriesi, Roberta,Bruno, Claudio,Di Mola, Antonia,Defrenza, Ivana,Cavalluzzi, Maria Maddalena,Micucci, Matteo,Carocci, Alessia,Franchini, Carlo,Lentini, Giovanni
, p. 511 - 516 (2013)
Mexiletine is a very well-known class IB antiarrhythmic drug, whose enantiomers differ in both pharmacodynamic and pharmacokinetic properties, the (R)-isomer being the eutomer on experimental arrhythmias and in binding studies on cardiac voltage-gated sodium channels. meta-Hydroxymexiletine (MHM) is a minor metabolite of mexiletine, which has demonstrated to be more potent than the parent compound. Herein we report the synthesis and biological evaluation of MHM enantiomers for their potential antiarrhythmic activity. The same stereoselectivity pattern observed for mexiletine was found for MHM: the (R)-enantiomer of MHM was the eutomer on ac-arrhythmia also showing a negative inotropism higher than the one displayed by mexiletine and, at the same time, a decreased vasorelaxant activity on guinea-pig left atrium and guinea-pig ileum longitudinal smooth muscle.
Stereospecific synthesis of mexiletine and related compounds: Mitsunobu versus Williamson reaction
Carocci, Alessia,Catalano, Alessia,Corbo, Filomena,Duranti, Andrea,Amoroso, Rosa,Franchini, Carlo,Lentini, Giovanni,Tortorella, Vincenzo
, p. 3619 - 3634 (2007/10/03)
Mexiletine [1-(2,6-dimethylphenoxy)-2-propanamine], a chiral, orally effective antiarrhythmic agent, and several analogues substituted on either the stereogenic centre or the xylyloxy moiety, were prepared in both, highly enriched, optically active forms. According to the 'chiral pool' approach, the appropriate amino alcohols, protected as the corresponding phthalimide derivatives, were condensed with the desired phenols under either Mitsunobu (method A) or Williamson (method B) conditions. Generally, method A provided the most efficient route, both in terms of yields and number of steps necessary. Only when an isopropyl group was present on the stereogenic centre, i.e. when 2-amino-3-methylbutanol was used as the starting alcohol, method B proved to be the only available route, method A giving no product other than the starting phthalimide derivative. Regardless of the method used, enantiomeric excesses ranged from 91 to 99%. Given the availability of both variously substituted phenols and optically active amino alcohols, the two methods described herein, taken together, may serve as a versatile approach, useful to meet the needs of new chiral, optically active mexiletine analogues, possibly endowed with higher potency in exerting a use-dependent block on sodium channels and/or more resistant to biotransformations. Copyright (C) 2000 Elsevier Science Ltd.
