Morphine biosynthesis

Having looked at the biosynthesis of pyridoxal 5 -phosphate in the previous section, let s now go up a level in complexity by looking at morphine biosynthesis. Morphine, perhaps the oldest and best known of all alkaloids, is obtained from the opium poppy, Papaver somniferum, which has been cultivated for more than 6000 years. Medical uses of the poppy have been known since the early 1500s, when crude extracts, called opium, were used for the relief of pain. Morphine was the first pure compound to be isolated from opium, but its close relative codeine also occurs naturally. Codeine, which is simply the methyl ether of morphine and is converted to morphine in the... 

One step in the biosynthesis of morphine is the reaction of dopamine with p-hydroxyphenylacetaldehyde to give (S)-norcoclaurine. Assuming that the reaction is acid-catalyzed, propose a mechanism. 

Moore, Stanford, 1030 Morphine, biosynthesis of, 969 specific rotation of, 296 structure of, 64 MR1, see Magnetic resonance imaging. 468-469 mRNA, see Messenger RNA MS, see Mass spectrometry Mullis, Kary Banks, 1117 Multiplct (NMR), 460 table of, 462... 

Fig. 10.6 Reaction catalyzed by codeinone reductase (COR), the penultimate step in morphine biosynthesis.

With a morphine biosynthetic gene in hand, we believed we could begin to address the question why only P. somniferum produces morphine, while other Papaver species such as P. rhoeas, P. orientale, and P. bracteatum do not. Unexpectedly, we found that the codeinone reductase transcript was present to some degree in all four species investigated. A review of the literature revealed no alkaloids reported in P. rhoeas for which codeinone reductase should participate in the synthesis. Similarly, P. orientale accumulates the alternate morphine biosynthetic precursor oripavine, but codeinone reductase is not involved in the biosynthesis of oripavine, acting instead after this alkaloid along the biosynthetic pathway to morphine.22 P. bracteatum produces the morphine precursor thebaine as a major alkaloid. As for oripavine in P. orientale, codeinone reductase would act in P. bracteatum after thebaine formation on the pathway to morphine. It appears, therefore, that the reason that P. rhoeas, P. orientale, and P. bracteatum do not produce morphine is not related to the absence of the transcript of the morphine biosynthesis-specific gene codeinone reductase. The expression of codeinone reductase may simply be an evolutionary remnant in these species. 

Salutaridinol 7-0-acetyltransferase catalyzes the conversion of the phenanthrene alkaloid salutaridinol to salutaridinol-7-Oacetate, the immediate precursor of thebaine along the morphine biosynthetic pathway in P. somniferum (Fig. 10.7).26 Acetyl CoA-dependent acetyltransferases have an important role in plant alkaloid metabolism. They are involved in the synthesis of monoterpenoid indole alkaloids in medicinal plant species such as Rauwolfia serpentina. In this plant, the enzyme vinorine synthase transfers an acetyl group from acetyl CoA to 16-epi-vellosimine to form vinorine. This acetyl transfer is accompanied by a concomitant skeletal rearrangement from the sarpagan- to the ajmalan-type (reviewed in2). An acetyl CoA-dependent acetyltransferase also participates in vindoline biosynthesis in Catharanthus roseus, the source of the chemotherapeutic dimeric indole alkaloid vinblastine (reviewed in2). Acetyl CoA deacetylvindoline 4-O-acetyltransferase catalyzes the last step in vindoline biosynthesis. A cDNA encoding acetyl CoA deacetylvindoline 4-0-acetyltransferase was recently successfully isolated.27... 

UNTERLINNER, B LENZ, R KUTCHAN, T.M., Molecular cloning and functional heterologous expression of codeinone reductase The penultimate enzyme in morphine biosynthesis in the opium poppy Papaver somniferum, Plant J., 1999,18,465-475. 

Phenolic oxidative coupling the biosynthesis of tubocurarine and morphine... 

Grothe, T., Lenz, R. and Kutchan, T. M. 2001. Molecular characterization of the salu-taridinol 7-0-acetyltransferase involved in morphine biosynthesis in opium poppy Papaver somniferum. Journal of Biological Chemistry, 276(33) 30717-30 723. 

The structure of morphine was first determined in 1925 by Sir Robert Robinson (1886— 1975) and John Masson Gulland (1898-1947). A total synthesis of morphine was achieved in 1952 at the University of Rochester by Marshall D. Gates (1915—2003) and his co-worker Gilg Tschudi. Since its first synthesis, a number of other processes have been used to synthesize morphine in the laboratory, but none of these is economically viable. Therefore morphine continues to be obtained through biosynthesis from poppy plants. 

Morphine and codeine biosynthesis (Samuelsson, 1999 Herbert et al., 2000 Novak et al., 2000) Studies on the biosynthesis of morphine have been carried out mainly on cell cultures mainly of Coptis japonica and species of Thalictrum. Two enzymes (tyrosine decarboxylase and phenolase) catalyze the formation of dopamine from one molecule tyrosine. Dopamine is also the key intermediate in the biosynthesis of mescaline. 

Scheme 27 Biosynthesis of morphine conversion of dopamine to mescaline.

In order to understand the continuation of the biosynthesis of codeine and morphine from reticuline, the structure for (S)-reticuline can be written as follows ... 

Or they may be grouped according to the genus of their plant source (morphine and codeine, Section 23-2, are examples of opium alkaloids), or by their physiological effects (antimicrobials, antibiotics, analgesics), or by similarities in the route by which they are synthesized by the organism (biosynthesis). The structural and biosynthetic classifications make the most sense to the chemist and is the organization chosen here. 

Biosynthetic research relating to the isoquinoline family was extremely successful, with such important members as morphine [3, 14], codeine [3, 15] or berberine [3, 14,16-18]. Extensive efforts have provided details pertaining to multiple sets of enzymes participating in the biosynthesis of the alkaloids above, in many cases with the help of plant cell suspension culture techniques. Since 1988, when the breakthrough in cloning of cDNA from alkaloid biosynthesis occurred [19, 20], a significant number of enzymes known from the indoles and isoquinolines biosynthesis have been isolated, their biochemical properties described and the majority of their corresponding cDNAs cloned and functionally over-expressed in non-plant hosts such as Escherichia coli, yeast or insect cells. 

Morphine as a typical plant natural product has also been identified many times in animals and humans, initially leading to the belief that its occurrence is of a dietary origin or of de novo synthesis [93]. However, surprisingly, feeding experiments with labelled precursors to neuroblastome cells have recently provided clear evidence of the presence of endogenous morphine formation in human cells [94], Moreover, the finding that some of the morphine biosynthesis-specific enzymes are present in some of these cells provides the first, surprising, clear-cut evidence for its enzyme catalysed formation in non-plant cells [95, 96]. 

In the laboratory and associated greenhouse, we gave particular attention to the biosynthesis of the morphine alkaloids.12"14 At first we purchased Papaver somniferum seeds and grew splendid poppies, but they contained no morphine... 

Labelled reticuline was readily incorporated into thebaine 14, codeinone 15a, codeine 15b, and morphine 16 without scrambling of the labels. Salutaridine is not present in detectable quantities in Papaver somniferum. However, when appropriately labelled, it is well incorporated into morphine alkaloids. Salutaridine can be readily reduced to two stereo-isomeric allylic alcohols 17, both of which are converted by mild acid catalysis (17, see arrows) to give thebaine 14. The alkaloids 17, 14, 15a, and 15b were all shown to be precursors of morphine. This was of interest, because the earlier theory of Robinson suggested that unmethylated alkaloids were first assembled and methylation was a terminal stage of biosynthesis. 

It has not yet been proven that the coupling of phenolate radicals takes place in the biosynthesis of phenolic alkaloids. However, there is no evidence against, and much circumstantial support for, this proposal. The brilliant work of Zenk1517 has shown that the oxidative step in morphine biosynthesis is carried out by a single P-450 type iron porphyrin enzyme, which has been isolated pure and cloned from the appropriate... 

Exploration of the role of phenolic coupling in alkaloid biosynthesis was continued in a long series of elegant publications51 by Dr D. S. Bhakuni who was associated with the work cited above on morphine biosynthesis. A. R. Battersby and his colleagues also made many important contributions in phenolic alkaloid biosynthesis and participated in the key studies of morphine biosynthesis.52... 

Papaver Alkaloids.—Biosynthesis of morphine (36) occurs, in Papaver somniferum, through reticuline (33) by way of thebaine (35). The sequence from (35) to (36) involves, inter alia, two O-demethylations, with that at the methoxy-group at C-6 occurring first.1,2 Confirmation that the other methoxy-group is not demethylated first in this Papaver species obtains from the failure to detect oripavine (37), which is found in other Papaver species, as a natural constituent of P. somniferum. The experiment involved attempted isolation of radioactive (37), using inactive alkaloid as carrier, following a feeding experiment with radioactive reticuline (33).37... 

Oripavine 3-ethyl ether (38), an unnatural analogue of thebaine (35), was found to be metabolized to morphine 3-ethyl ether and to morphine (36). The efficiency of the conversion was comparable to that of natural biosynthesis. (For an examination of other unnatural compounds as substrates for the enzymes of the biosynthesis of morphine alkaloids, see Vol. 4, p. 15.)... 

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... 

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