MAO

Ren B, Li W H, Mao B W, Gao J S and Tian Z Q 1996 Optical fiber Raman spectroscopy combined with scattering tunneling microscopy for simultaneous measurements ICORS 96 XVth Int. Conf on Raman Spectroscopy ed S A Asher and P B Stein (New York Wley) pp 1220-1... 

Flemley R J and Mao FI K 1990 Oritical behavior in the hydrogen insulator-metal transition Science 249 391... 

The metallocene catalyst is used m combination with a promoter usually methyl alumoxane (MAO)... 

Figure 14 5 outlines a mechanism for ethylene polymerization m the presence of Cp2ZrCl2 Step 1 describes the purpose of the MAO promoter which is to transfer a methyl group to the metallocene to convert it to its catalytically active form This methyl group will be incorporated into the growing polymer chain—indeed it will be the end from which the rest of the chain grows... 

J. A. MaOs ow AdvancedMethods of Machining, Chapman and Hall, London, 1988. 

Dopamine. Dopamine (DA) (2) is an intermediate in the synthesis of NE and Epi from tyrosine. DA is localized to the basal ganglia of the brain and is involved in the regulation of motor activity and pituitary hormone release. The actions of DA are terminated by conversion to dihydroxyphenylacetic acid (DOPAC) by monoamine oxidase-A and -B (MAO-A and -B) in the neuron following reuptake, or conversion to homovanillic acid (HVA) through the sequential actions of catechol-0-methyl transferase (COMT) and MAO-A and -B in the synaptic cleft. 

In addition to halopeiidol, the putative neuroleptics, limcazole (311), lemoxipiide (312), and gevotioline (313) bind to (7-ieceptois as does the dopamine uptake blocker, GBR 12909 (314) and two ligands active at the NMDA receptor, ifenprodil (315) and CNS 1102 (316). NPC 16377, (317) is a selective (7-teceptor ligand. MAO inhibitors and antidepressants also bind to (7-teceptors. Some evidence indicates that (7-teceptors in the brain are in fact a form of cytochrome which may account for the diversity of ligands interacting with (7-sites. 

MAO is a relatively expensive chemical its price in 1994 was about 450/kg of 30 wt % MAO solution, but projected to decrease to about 200/kg (28). Continuous efforts to replace MAO have resulted in the development of co-catalysts containing mixtures of MAO and trimethyl aluminum (29) as well as new co-catalyst types (30,31). Another approach is to prepare MAO directiy in a polymeriza tion reactor by co-feeding into it trimethyl aluminum and water (32). 

Treatment of Major Depression. Dmgs commonly used for the treatment of depressive disorders can be classified heuristicaHy iato two main categories first-generation antidepressants with the tricycHc antidepressants (TCAs) and the irreversible, nonselective monoamine—oxidase (MAO) inhibitors, and second-generation antidepressants with the atypical antidepressants, the reversible inhibitors of monoamine—oxidase A (RIMAs), and the selective serotonin reuptake inhibitors (SSRIs). Table 4 fists the available antidepressants. 

Monoamine—Oxidase Inhibitors. In the mid-1950s, tuberculosis patients with depression being treated with iproniazid (42) were occasionally reported to become euphoric. This observation led to the discovery of irreversible monoamine—oxidase (MAO) inhibiting properties. Hydrazine and nonhydrazine-related MAO inhibitors were subsequentiy shown to be antidepressants (122). Three other clinically effective irreversible MAO inhibitors have been approved for treatment of major depression phenelzine (43), isocarboxazid (44), and tranylcypromine (45). 

Chronic use of these irreversible MAO inhibitors has been associated with life-threatening toxicity, ie, hepatotoxicity and hypertensive crisis. Interactions with tyramine contained in food and other drugs have severely limited use of irreversible MAO inhibitors. These MAO inhibitors are also nonselective, inhibiting both MAO-A and MAO-B isoenzymes. Furthermore, they interfere with the hepatic metabolism of many dmgs. 

SSRIs are widely used for treatment of depression, as well as, for example, panic disorders and obsessive—compulsive disorder. These dmgs are well recognized as clinically effective antidepressants having an improved side-effect profile as compared to the TCAs and irreversible MAO inhibitors. Indeed, these dmgs lack the anticholinergic, cardiovascular, and sedative effects characteristic of TCAs. Their main adverse effects include nervousness /anxiety, nausea, diarrhea or constipation, insomnia, tremor, dizziness, headache, and sexual dysfunction. The most commonly prescribed SSRIs for depression are fluoxetine (31), fluvoxamine (32), sertraline (52), citalopram (53), and paroxetine (54). SSRIs together represent about one-fifth of total worldwide antidepressant unit sales. 

Reversible Inhibitors of Monoamine Oxidase. Selective MAO-A inhibitors, which aie leveisible (so-called RIMAs), have also been developed, theiefoie substantially leduciag the potential foi food and dmg iateiactions. Indeed, the tyiamine-potentiating effects of these dmgs is much reduced compared with the irreversible MAO inhibitors. The RIMAs represent effective and safer alternatives to the older MAO inhibitors. The only marketed RIMAs ate toloxatone [29218-27-7] and moclobemide (55). The latter is used widely as an effective, weU-tolerated antidepressant. 

The second-generation antidepressants, particularly RIMAs and SSRJs, are much less toxic ia overdose than the older TCAs and irreversible MAO inhibitors. However, similar to first-generation antidepressants, the therapeutic effect only becomes manifest after several weeks. Up to one-third of depressed patients are nonresponders. Ideally, an antidepressant would combine a more rapid onset of action with greater clinical efficacy and a higher responder rate, as well as even better tolerability. 

Monoamine Oxidase Inhibitors. MAOIs inactivate the enzyme MAO, which is responsible for the oxidative deamination of a variety of endogenous and exogenous substances. Among the endogenous substances are the neurotransmitters, norepinephrine, dopamine, and serotonin. The prototype MAOI is iproniazid [54-92-2] (25), originally tested as an antitubercular dmg and a close chemical relative of the effective antitubercular, isoniazid [54-85-3] (26). Tubercular patients exhibited mood elevation, although no reHef of their tuberculosis, following chronic administration of iproniazid. In... 

Generic name Trade name Manufacturer Year of introduction Relative MAO inhibitory potency... 

Nialamide [51 -12-7] (30) and mebana2ine [65-64-5] (31) are two MAO inhibitors marketed in Europe that have stmctural similarities to ipronia2id and pheneUine, respectively. Both compounds are prepared by standard methods (35,36). 

Normally, dietary tyramine is broken down in the gastrointestinal tract by MAO and is not absorbed. In the presence of MAOI, however, all of its potent sympathomimetic actions are seen. Other side effects of MAOI include excessive CNS stimulation, orthostatic hypotension, weight gain, and in rare cases hepatotoxicity. Because the monoamine oxidase inhibitors exhibit greater toxicity, yet no greater therapeutic response than other, newer agents, clinical use has been markedly curtailed. The primary use for MAOIs is in the treatment of atypical depressions, eg, those associated with increased appetite, phobic anxiety, hypersomnolence, and fatigues, but not melancholia (2). 

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