Among the alkaloids of the tubers of Stephania piwrii are the new bisbenzylisoquinolines (+)-2-norisotetrandrine 111, (+)-stepierrine [2], (+)-2'-norobaberine [3], (+)-stephibaberine 151, (+)-2'-norcepharanthine 161, (+)-2-norcepharanoline [7, and (-)-2 norisocepharanthine 191. Stephania pimii Diels (syn. Stephania erecta Craib) (Menispermaceae) is a slender, herbaceous climber with large tubers and round leaves. The tubers are used in Thai folk medicine as a skeletal muscle relaxant and also as an analgesic and tonic under the name "Bua Bok."Previous work on the tubers showed the presence of the bisbenzylisoquinolines (+)-cepharanthine and (+) homoaromoline (1).We have carried out detailed studies on a sample of "Bua Bok" purchased from a traditional medicine drugstore in Bangkok. Three tetrahydrobenzylisoquinolines were found, namely, (+) coclaurine, (+)-N-methylcoclaurine, and (+)-reticdine, as well as the aporphine (+)-isocorydine. A wide variety of bisbenzylisoquinolines was also obtained, among which were the head-totail dimers (-)-cydeanine and (-)-Ndesmethylcycleanine, and the tail-totail dimers (+)-berbamunine and (+) dehydroapateline.Among the Menispermaceae, dimers of the isotetrandrine subgroup (8-7', 11-12') are quite common (2-4). In the present instance, several of these were obtained, namely, (+)-isotetrandrine (2-4), (+)-thalrugosamine (2-4), (+)- 2-norberbamine (2-9, (+)-2'-norisotetrandrine (24, (+)-2-norisotetrandrine fl], and (+)-stepierrine 121. The latter two alkaloids are new.The mass spectrum of the nonphenolic (+)-2-norisotetrandrine 111, C,,H40N,06, was characteristic of a doubly bridged tail-to-tail dimer. The molecular ion, mlz 608, was of medium intensity, while the base peak, m/z 381, was due to the upper part of the dimer represented by rings A, B, A', and B'. The 360 MHz nmr spectrum in CDCl, solution has been summarized around expression 1. The spectral pattern was generally reminiscent of an isotetrandrine derivative with four methoxyl singlets (5). For isotetrandrine-type alkaloids, the N-2 methyl signal usually appears around 6 2.30 while the N-2' methyl is at 6 2.55. (+)-2-Norisotetrandrine [l] showed only one N-methyl singlet at 6 2.57, so that a secondary amine must be present at N-2, i.e., on the left hand side of the dimer. The downfield shift of H-1 to 6 4.06 reinforced this assignment.The uv spectrum of (+)-stepierrine [2}, C35H32NZ06, showed hthochromic shifts in base as well as in acid (see Experimental) indicating the presence of a phenolic function and a fully aromatic isoquinoline moiety. This last feature was also manifested by a poor fragmentation in the mass spectrum where the base peak, mlz 575, corresponded to the EM- l]+ ion. Additionally, the 'Hnmr spectrum, as given around expression 2, with an AB system at 6 7.32 and 8.33 (J=5.6 Hz), was typical of the pyridine ring of an isoquinoline system. The rest of the spectrum was very close to that for the known and related (-) caryolivine, which has a methoxyi group&#he molecule. The most upfield of the methoxyl singlets is due to the substituent at C-7'. The slight downfield shift of this signal compared to that for (+)-obaberine, as well as** the absence of a methoxyl signal around 6 3.80, argued conclusively in favor of a phenolic function at C-6' (5).The methylenedioxy substituent occurs very seldom among bisbenzylisoquinolines (2-4). However, (+)-2'-norcepharanthine [6], (+)-2-norcepharanoline fq, and (-)-2-norisocepharanthine 191 all incorporated this functionality.(+)-2'-Norcepharanthine 163, spectrum the same molecular ion as in the spectrum of (+)-2-norcepharanthine [SI, mlz 592, as well as the same base peak, mlz 365 (9). The nmr spectrum showed the typical set of two close doublets, at 6 5.56 and 5.61 (J= 1.3 Hz) previously observed for the methylenedioxy group in the cepharanthine series (5). The sole N-methyl singlet was at 6 2.58, and the related H- 1 multiplet was at 6 3.6 1. Looking at the opposite end of the molecule, the H-1' signal appeared at 6 4.56, indicating that the secondary amine function involved N-2' rather than N-2. C36H36N206, displayed in the maSSThe phenolic (+)-2-norcepharanoline 177, C35H34NZ06, presented in its mass spectrum molecular ion mlz 578, which is 14 daltons less than for the known and accompanying (+)-2-norcepharanthine E81 (9). The mass fragment representing the top half of the molecule, mh 365, was the same for species 7 and 8, which allowed placement of the phenolic function at C-12. The nmr spectrum displayed one methoxyl singlet at 6 3.71 and the characteristic set of doublets at 6 5.60 and 5.64, indicative of a methylenedioxy at C-6',7'. Only oneNmethyl singlet was in evidence at 6 2.68. The adjacent H-1' showed up as a multiplet at 6 4.20, while H- 1 was represented by a multiplet at 6 4.27. The downfield shift of the latter from its usual chemical shift of ca. 6 3.60 wasdiagnostic of N-2 as a secondary amine (5).Alkaloids 3, 5, 6, and 7, belonging to the oxyacanthine subgroup (7-8', 11- 127, showed, as expected, strong positive specific rotations which confirmed their 1R, 1's absolute Configuration (6).The mass spectrum of our last new alkaloid, (-)-2-norisocepharanthine 191, (+)-2-norcepharanthine 181, with a molecular ion and base peak mlz 592, which was accompanied by strong ions mlz 365 and 183. However, the nmr spectrum of (-)-2-norisocepharanthine 191 was appreciably different from that of (+)-2-norcepharanthine 181 (5). In particular, H- 10 appeared at 8 6.39 instead of8 5.58. Also, H-1, whichisadjacent to the secondary amine function, was at 6 4.57 instead of 8 4.32. The levorotatory character of (-)-2-norisocepharanthine 191, as well as the moderate magnitude of the specific rotation, [CX)D - 84' (c = 0.25, CHCI,), argued in favor of the lS, 1's configuration (6). Such an assignment also explains the differences between the nmr spectra of 9 on the one hand and 7 and 8 on the other (5). C36H36N,06, Was Very Close tO that Of(-)-2-Norisocepharanthine 191 is a minor alkaloid in the plant and is the only bisbenzylisoquinoline presenting this absolute configuration to be isolated from S. pimii. It is possible, therefore, that its biogenesis involves oxidation of (+)-2-norcepharanthine 181 to the corresponding N-2 imine whose subsequent reduction then leads to C-1 epimerization. A finding of possible relevance in this context is that NaBH, reduction of (+)-coclobine or (+)-12 demethylcoclobine, which are oxyacanthine-type dimers with an imine at C- 1, proceeds in a non-stereospecific manner to supply diastereomeric mixtures of the 2-nor derivatives (8,lO).