1 -Benzyltetrahydroisoquinoline

Bisbenzylisoquinoline alkaloids are dimeric benzyltetrahydroisoquinoline alkaloids that are known for their pharmacological activities. A well-described example is the muscle relaxant (+)-tubocurarine, which in crude form serves as an arrow poison for South American Indian tribes. In the biosynthesis of this broad class of dimeric alkaloids, it has been postulated that the mechanism of phenol coupling proceeds by generation of phenolate radicals followed by radical pairing to form either an inter- or intramolecular C - O or C - C bond. Enzyme studies on the formation of bisbenzylisoquinoline alkaloids indicated that a cytochrome P-450-dependent oxidase catalyzes C - O bound formation in the biosynthesis of berbamunine in Berberis cell suspension culture.15 This enzyme, berbamunine synthase (CYP80A1), is one of the few cytochromes P-450 that can be purified to... 

In the first place, the structure of the target molecule is submitted to a rational analysis in order to perceive the most significant structural features, and it may be useful to use different types of molecular models at this point. It should be remembered that a molecular structure has "thousand faces" and finding the most convenient perspective may greatly simplifly the synthetic problem. The synthesis of opium alkaloids, for instance, is much simplified if one realises that they are, in fact, derivatives of benzyltetrahydroisoquinoline (18) (see Scheme 3.8). This was indeed the inspired intuition of Sir Robert Robinson which led to the structural elucidation of morphine (19) and to a first sketch of the biogenetic pathway [22], and later on to the biomimetic synthesis of thebaine 20 [23] [24]. 

The intermolecular coupling of phenols is used extensively in what are believed to be biomimetic alkaloid syntheses. Aqueous solutions of iron(lll) salts are most frequently used as the oxidising agent and the dimerization process must involve phenoxy radicals. Examples are the dimerization of orcinol 21 [114] and the formation of bis-benzyltetrahydroisoquinolines 22 [115],... 

An interesting variation on the above theme for the biosynthesis of the pavines and isopavines has been proposed by Dyke (169). This proceeds via a quinone methine intermediate. The precursor, a l-benzyltetrahydroisoquinoline-3-car-boxylic acid 165 oxidizes to a quinone methide 166, which then decarboxylates to afford a reactive enamine 167. Cyclization then readily furnishes a pavine. Alternatively, hydration of the enamine 167 at C-4 would ultimately result in formation of an isopavine (Scheme 36). 

Many starfish cause an escape response in usually sessile marine invertebrates [7]. The starfish Dermasterias imbricata causes the sea anemone Stomphia coccinea to release its basal disc from the substratum and swim away on contact. Bioassay-directed fractionation of the starfish extract led to the isolation of the compound found to elicit this response, the benzyltetrahydroisoquinoline alkaloid imbricatine (646). The structure of compound 646 was elucidated by spectral data interpretation. The amino acid residue in imbricatine is related to the thiol containing amino acids ovothiols A-C. Imbricatine (646) is active in both LI210 and P388... 

The solvent may influence the course of such coupling reactions. Thus N-trifluoracetyl-l-benzyltetrahydroisoquinolines (82) cyclize on anodic oxidation in acetonitrile to neospirodienones (83), whereas morphinandienones (84) are formed in methanol-acetonitrile [Eq. (70)].147... 

The alkaloid content of curare is from 4% to 7%. The most important constituent in menispermaceous curare is the bis-benzyltetrahydroisoquinoline alkaloid (+)-tubocurarine (Figure 6.48). This is a monoquaternary ammonium salt, and is water soluble. Other main alkaloids include non-quaternary dimeric structures, e.g. isochondrodendrine and curine (bebeerine) (Figure 6.48), which appear to be derived from two molecules of (R)-N-methylcoclaurine, with the former also displaying a different coupling mode. The constituents in loganiaceous curare (from calabash curare, i.e. Strychnos toxifera) are even more complex, and a series of 12 quaternary dimeric strychnine-like alkaloids has been identified, e.g. C-toxiferine (toxiferine-1) (see page 359). 

An alternative approach to synthesis of this ring system involves insertion of CO into the brominated secondary base (43), by treatment with carbon monoxide, lead tetra-acetate, and triphenylphosphine in tributylamine, the product being the amide (44), reduction of which affords the amine.81 Govadine (42 R1 = R4 = OMe, R2 = R5 = OH, R3 = H) has been synthesized by the conventional ring-closure, with formaldehyde, of the diphenolic base (45), or of its dibenzyl ether, in acid solution.82 Tetrahydroberberines, together with N-benzyltetrahydroisoquinolines, have also been obtained by the electrolytic reduction of 3,4-dihydroisoquinolines of structure (46).83... 

The family of the Papaveraceae includes 31 genera and approximately 700 species (2). The alkaloids contained therein are derivatives of the 1-benzyltetrahydroisoquinoline alkaloid reticuline (1). For the classification and chemical data of the described alkaloids (3-5) as well as for the pharmacodynamic properties of morphine and codeine (6, 7) see reviews. Some pharmacological aspects have been dealt with by Shamma (5) and Krueger et al. (8). 

Laudanosine (6,7,3, 4 -tetramethoxy-1 -benzyltetrahydroisoquinoline) was isolated for the first time by Hesse (371) from opium. Intravenous administration of this substance to rabbits reduced the intraocular pressure (372). The whole effect manifested itself by motor restlessness, convulsions, disorders in coordination of movements, salivation, etc., which indicated an involvement of the extrapyramidal system and the mesencephalon. The effect produced by synthetic racemic laudanosine on rabbits was similar to that of the (+) form, but it was more toxic (373). The pharmacological properties of laudanosine have also been described (374). 

Very small quantities of laudanine [(+ )-6,7,4 -trimethoxy-3 -hydroxy-1-benzyltetrahydroisoquinoline] were found present in opium... 

Pathirana, C. and Andersen, R. J., Imbricatine, an unusual benzyltetrahydroisoquinoline alkaloid isolated from the starfish Dermasterias imbricata, J. Am. Chem. Soc., 108, 8288, 1986. 

Oxidation of the 1-benzyltetrahydroisoquinoline (195) with VOCl3 (145) yielded the dienone (196) in 34% yield reaction of this with boron trifluoride etherate provided 197, and this was converted, as shown in Scheme 41, to 14-methoxyerysodienone (199). Oxidation of the secondary amine (200) gave (146) the methoxyerysodienone (201) in only 6% yield. The alternative mode of oxidation, leading to 202, was not observed. 

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