From moclobemide to Ro 19-6327 and Ro 41-1049: the development of a new class of reversible, selective MAO-A and MAO-B inhibitors.

This study describes the serendipitous discovery of moclobemide, a short-acting MAO-A inhibitor which is in an advanced stage of clinical development as an antidepressant. The short duration of action of this MAO inhibitor containing a morpholine ring moiety is due to the complete reversibility (probably by metabolism of the inhibitory molecular species) of MAO-A inhibition. Since moclobemide is much more effective in vivo than expected from its in vitro activity, investigations to identify a possible metabolite(s) more active as MAO-A inhibitor than the parent compound were carried out. The study of the MAO inhibitory characteristics of several known and putative moclobemide metabolites did not allow the identification of a potent MAO-A inhibitor but led to the discovery of Ro 16-6491, a potent MAO-B inhibitor of novel chemical structure. Systematic chemical modification of the aromatic ring system of Ro 16-6491 finally provided Ro 19-6327 and Ro 41-1049 which are highly selective and reversible inhibitors of MAO-B and MAO-A, respectively. Tritiated derivatives of Ro 19-6327 and Ro 41-1049 were used in binding studies to elucidate their mechanisms of action and to study their cellular distribution by quantitative enzyme radioautography.

Pharmacological profile of moclobemide, a short-acting and reversible inhibitor of monoamine oxidase type A.

The novel antidepressant moclobemide is a reversible inhibitor of monoamine oxidase (MAO), preferentially of type A. Moclomide was active in three animal models considered predictive for antidepressant activity: 1) it prevented dose-dependently akinesia and blepharospasm induced in mice and rats by Ro 4-1284, a short-acting amine releasing agent. Prevention of akinesia by moclobemide also depended upon the dose of Ro 4-1284. For comparison also, effects of cimoxatone, harmaline, tranylcypromine and clorgyline are presented: 2) in cats, it selectively and dose-dependently suppressed rapid eye movement sleep without disturbing the sleep-wakefulness cycle; and 3) in the behavioral despair test in mice, it decreased the immobility score to a similar degree as amitriptyline or imipramine. In addition, moclobemide potentiated 5-hydroxytryptophan-induced stereotypies in rats with a potency similar to cimoxatone and with a duration of action of less than 24 hr. Moclobemide had almost no effect on the spontaneous behavior in mice, rats, cats and monkeys. Only in higher doses, marginal sedation and slight impairment in motor performance were seen. Moclobemide did not prevent pilcarpine-induced salivation in mice, demonstrating the absence of anticholinergic activity. Blood pressure and heart rate of freely moving, spontaneously hypertensive rats were only slightly decreased for less than 3 hr. Moclobemide moderately potentiated the pressor effect of p.o. tyramine in rats. In conclusion, the reversible MAO inhibitor moclobemide is active in animal models sensitive to all major drugs used in the treatment of depression. In contrast to imipramine-like antidepressants, it lacks anticholinergic activity and it differs from classic MAO inhibitors by potentiating only weakly the pressor effect of p.o. tyramine.