Morphinans Morphine alkaloids

Dibenz[h,e]azepine-6,11-diones ent-Morphinan nomenclature, 1, 29 Morphinan, 1,2,3,4-tetrahydro-nomenclature, 1, 29 14-a-Morphinan, N-methyl-synthesis, 1, 480 Morphinans nomenclature, 1, 29 as pharmaceuticals, 1, 148 synthesis, 2, 377 Morphine, 2, 512 as analgesic, 1, 167 as metabolite of normorphine, 1, 235 as pharmaceutical, 1, 146, 147, 148 synthesis, 1, 480 Morphine alkaloids structure, 4, 534 Morphin-7-en nomenclature, 1, 29 Morphinone, dihydro-as pharmaceutical, 1, 147 Morpholine — see also 1,4-Oxazine, tetrahydrocarcinogenicity, 1, 229 corrosion inhibitor, 1, 409 metabolism, 1, 226 nomenclature, 3, 996 structure, 2, 5 synthesis, 2, 89 Morpholine, 4-aciyloyl-polymers, 1, 291 Morpholine, alkenyl-polymers, 1, 291... 

A total of more than 20 total syntheses have been described which aim to generate the most important members of the morphinan-type alkaloids, morphine and codeine. These long-standing efforts in alkaloid synthesis have been primarily due to the exceptional pharmacological importance of both compounds, as the most efficacious therapies for pain and cough, respectively. 

Strychnos usambarensis (Loganiaceae) [root] S. Am. Indian poison curare component Derived synthetically from morphine, a morphinan isoquinoline alkaloid from Papaver somniferum (opium poppy) (Papaveraceae) [aerial]... 

The role of reticuline as an intermediate in the biosynthesis of the mor-phinan alkaloids (Fig. 2.8) was demonstrated by the isolation both of (S)-and (f )-reticuline from the opium poppy. An excess of the (S)-reticuline over the (f )-isomer was found in opium (poppy latex) obtained from the mature plant, in contrast to the roughly equal amounts of these two isomers that occur in poppy seedlings. Both isomers were found to be incorporated into morphine, the major alkaloid isolated from opium, although incorporation of the (f )-isomer was slightly more efficient. (f )-Reticuline is firmly established in P. somniferum as the precursor of the morphinan-type alkaloids (Loefer and Zenk, 1990). (S)-Reticuline, however, is the central intermediate in isoquinoline alkaloid biosynthesis. It has been postulated that (R)-reticuline is formed from (S)-reticuline by isomerization. This inversion of configuration can be explained by the intermediate formation of the 1,2-dehydroreticulinium ion originating from (S)-reticuline, followed by stereospecific reduction to yield the (R) counterpart. The 1,2-dehydroreticulinium ion is efficiently incorporated into opium alkaloids and its role as a precursor of the morphinan-t)q)e alkaloids has been unequivocally established (De-Eknamkul and Zenk, 1990, 1992). 

Dihydromorphine. <5a,6a) 4,5-Epoxy-l7-merhyf-morphinan-3t6-diol CpHjjNOjl mol wt 287.35. C 71.05%, H 7.37%, N 4.87%. O 16.70%. Prepd by hydrogenation of morphine Or opium by demethylation of tetrahydrothe-baine from dihydrocodeine. Ref Small Lutz, Chemistry of the Opium Alkaloids. Suppt. No. 103, Public Health Repons, Washington (1932) Eddy Reid X Pharmacol 52, 468 (1934) K. W. Bentley The Chemistry of the Morphine Alkaloids (Oxford, 1954). 

Opitim contains 10-25% alkaloids, and the main constituent is morphine. Other than morphine, more than 25 alkaloids are known, and among them are other morphinan-type alkaloids (codeine and thebaine), benzyl-isoquinoline-type alkaloids (papaverine and noscapine), and protopine-type alkaloids (protopine). The biosynthetic precursor of all of these alkaloids is phenylalanine. 

Alkaloids of the morphinane group. If the tetrahydroisoquinoline alkaloid norlaudanosoline is written in such a way that part of the molecule is rotated around the dotted line (Fig. 280), the relationship to the morphinane-type alkaloids becomes obviously. The actual precursor of these compounds, however, is (R)-reticuline. It is probably attacked by a phenol oxidase (C 2.3.1) yielding a biradical which is stabilized by the formation of the dienone (- -)-salutaridine. After reduction of (-j-)-salutaridine closure of a new 0-heterocyclic ring results in the formation of thebaine. The alkaloids codeine and morphine are synthesized from thebaine in Papaver somniferum,... 

Morphine (5) and codeine (methylmorphine) (6), two major morphinan-type alkaloids with an isoqninoline skeleton, are extracted from opium, the dried milky sap released from the immature finits of poppies (Papaver somniferum). Morphine and codeine can interact with opioid receptors distribnted in brain tissnes and the periphery, and are most widely nsed as narcotic analgesics, with codeine also having an antitussive effect [4, 25, 32]. 

Morphinane is the parent substance of the broad class of chiral molecules known as the morphine alkaloids. Interestingly, the (+) and (—) enantiomers of the compounds in this family have rather different physiological properties. The ( —) compounds, such as morphine, are narcotic analgesics (painkillers). 

Hong, C.Y, Kado, N., Overman, L.E. (1993) Asymmetric Synthesis of Either Enantiomer of Opium Alkaloids and Morphinans. Total Synthesis of (—)- and (-f)-Dihydrocodeinone and (—)- and (-F)-Morphine. Journal of the American Chemical Society, 115, 11028-11029. 

Somewhat more effective catalysts are obtained by replacing BINAP with TolBINAP, which is 2,2 -bis(di-p-tolylphosphino)-l,l -binaphthyl.4 The presently preferred catalysts are complexes of Ru(OCOCF3)2 with (R)- or (S)-TolBINAP, obtained by treatment of Ru(OAc)2TolBINAP with 2 equiv. of trifluoroacetic acid. Such catalysts promote hydrogenation of typical enamides in 98% ee and 98% yield. This reaction can be used to provide asymmetric synthesis of isoquinoline alkaloids as well as of morphinans used as substitutes for morphine. 

Morphine (10) and codeine (11), constituents of opium, are the most interesting alkaloids found in nature. Morphine is also the oldest alkaloid isolated, in 1805, by the German pharmacist Sertiimer from opium, the sun dried latex of Papaver somniferum. The structure of morphine with its so-called morphinan skeleton, once called the acrobat under the alkaloids, was finally elucidated in 1952 by the first total synthesis performed by Gates and Tschudi. Many syntheses would follow [26], but all morphine used today, whether legal or illicit, originates in the natural source P. somniferum or its extract, opium. The latex may contain up to 20% morphine. Most legal morphine is converted into the anticough medicine codeine (Table 5.1) by treatment with trimethylanilinium methoxide, whereas almost all illicit morphine is acetylated to the diacetate heroin. 

Agonists include natural alkaloids of opium (morphine, codeine, and a large blend of natural alkaloids, pantopon, and omnopon), their analogs (hydrocodon and hydromor-phone, oxycodone, and oxymorphone), derivatives of morphinane (levorphanol), and a number of synthetic compounds derivatives of phenylpiperidine (meperidine, promedol), 4-anilidopiperidines (fentanyl, sufentanyl, alfentanil), and derivatives of diphenylheptane (methadone, propoxyphene). 

Papaverine (Figure 6.45) is a benzylisoquinoline alkaloid, and is structurally very different from the morphine, codeine, thebaine group of alkaloids (morphinans). It has little or no analgesic or hypnotic properties put possesses spasmolytic and vasodilator activity. It has been used in some expectorant preparations, and in the treatment of gastrointestinal spasms, but its efficacy was not substantiated. It is sometimes used as an effective treatment for male impotence, being administered by direct injection to achieve erection of the penis. 

Fig. 20 Fourteen-step synthesis of the complete morphinan skeleton of morphine and codeine, starting with the enzymatically formed diol providing ring C of the carbon frame work of these alkaloids [129, 130]...

S)-Reticuline is a branch-point intermediate in the biosynthesis of most BAs. Most work has focused on branch pathways leading to the benzophenanthridine (e.g., sanguinarine), protoberberine (e.g., berberine), and morphinan (e.g., morphine and codeine) alkaloids.19 Most enzymes involved have been isolated, many have been purified, and four corresponding cDNAs have been cloned.19 The first committed step in benzophenanthridine and protoberberine alkaloid biosynthesis involves the conversion of (S)-reticuline to (5)-scoulerine by the berberine bridge enzyme (BBE) (Fig.7.2). BBE was purified from Berberis beaniana,20 corresponding cDNAs were cloned from E. californica and B. stolonifera,21 22 and BBE genes have been isolated from P. somniferum and E. californica.23,24... 

Conversion of (S)-reticuline to its ( )-epimer is the first committed step in morphinan alkaloid biosynthesis in certain species. 1,2-Dehydroreticuline reductase catalyzes the stereospecific reduction of 1,2-dehydroreticuline to (7 )-reticuline.39 Intramolecular carbon-carbon phenol coupling of (if)-reticuline by the P450-dependent enzyme salutaridine synthase (STS) results in the formation of salutaridine.40 The cytosolic enzyme, salutaridine NADPH 7-oxidoreductase (SOR), found in Papaver bracteatum and P. somniferum, reduces salutaridine to (7S)-salutaridinol.41 Conversion of (7S)-salutaridinol into thebaine requires closure of an oxide bridge between C-4 and C-5 by acetyl coenzyme A salutaridinol-7-0-acetyltransferase (SAT). The enzyme was purified from opium poppy cultures and the corresponding gene recently isolated (Fig.7.2).42,43 In the last steps of morphine... 

Many opium-derived and other IQs are psychoactive, the best known being the analgesic, addictive, narcotic, opium-derived morphinan alkaloids codeine and morphine (heroin being the semi-synthetic diacetate of morphine). The tertiary or quaternary amine structural component is important for the activity of some Erytkrina alkaloids and bisbenzyliso-quinolines (notably the major curare component (+)-tubocurarine) as antagonists of the nACh-R involved in neuronal excitation of skeletal muscle. The planar disposition of some polycyclic benzophenanthridines enables intercalation (parallel interleaving) between the base pairs of DNA. A variety of naturally occurring and synthetic IQ compounds are protein kinase inhibitors. 

Morphine and related morphinan alkaloids (A) akuammine, mitragynine (A), ibogaine and related indole alkaloids... 

Recent work indicates that the phenolic 3-OH of morphine does not play as vital a role as previously thought. Morphinan analogs that lack it have unchanged or elevated potencies provided a 4-phenolic (or better, 4-methoxy) substituent be present to compensate for the absence of the 4,5-oxide bridge of the natural alkaloids (p. 125). 

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