Pumiliotoxin C, synthesis

A third application of the Eschenmoser reaction in the synthesis of racemic perhydrogephyrotoxin (76) is based on an extension of the chemistry developed during the pumiliotoxin C synthesis. - Beginning with the bicyclic thiolactam (73), the sulfide-contraction reaction was used to append to the decahydro-isoquinoline a functionalized five-carbon side chain that would later be cyclized and become the a-hy-droxyethylpyrrolidine portion of the molecule. Alkylation of the thiolactam (73) with methyl 5-bromolevulinate followed by treatment with the Eschenmoser dual base-thiophile reagent (28) produced the vinylogous carbamate (74) in 81% yield from the starting thiolactam (73 Scheme 17). Reduction of the vinylogous amide (74), followed by equilibration of the amino ketones in the presence of... 

This synthesis is patterned after the "Ibuka" pumiliotoxin-C synthesis. 

The hetero-Diels-Alder reaction has also utilized dienophiles in which both reactive centers are heteroatoms. Kibayashi reported that the intramolecular hetero-Diels-Alder cycloaddition of chiral acylnitroso compounds, generated in situ from periodate oxidation of the precursor hydroxamic acid, showed a marked enhancement of the trans-selectivity in an aqueous medium compared with the selectivity in nonaqueous conditions (Eq. 12.55).125 The reaction was readily applied to the total synthesis of (—)-pumiliotoxin C (Figure 12.5).126... 

Within a total synthesis of the neurotoxin (-)-pumiliotoxin C [52], Minnaard, Fer-inga and coworkers used a domino Heck/Tsuji-Trost reaction of 6/1-93 and 6/1-94 to give the perhydroquinoline 6/1-95 in 26% yield after hydrogenation [53] (Scheme 6/1.24). 

Perhydropyrido[l,2-A][l,2]oxazines have been utilized as key intermediates in a stereospecific total syntheses of (—)-pumiliotoxin C and 5-< />z-pumiliotoxin C <1996J(P1)1113>, and the marine alkaloids (—)-lepadins A, B, and C and macrocyclic dilactones, (+)-azimine and (+)carpaine <20000L2955, 2001JOC3338, 2003OL3839>. In the total synthesis of the marine alkaloids ( )-fasicularin and ( )-lepadiformine, perhydro[l,2]oxazino[3,2 /]quinolines were used to control the stereochemistry <2000JA4583, 2000TL1205>. 

The isoxazoline 355 (Table 27, entry 9) served as precursor for the total synthesis of the amphibian alkaloid ( + )-Pumiliotoxin C 358 (Scheme 50) [89]. 

An enantioselective synthesis of the natural venom pumiliotoxin C 98 and its unnatural enantiomer was achieved from (/ )-norvaline in a multistep... 

The Beckmann rearrangement was used as a key step (41% yield, under standard conditions) for the synthesis of the natural alkaloid Pumiliotoxin C 359, which was originally isolated from the skin extracts of Dendrobates pumilio (a strikingly coloured Panamanian poison arrow frog) (equation 139). ( )-Pumiliotoxin C was also synthesized by a similar ring formation process by Mehta and Praveen. ... 

As mentioned in Section 10.1.2, Padwa and co-workers (40,41) employed the Pummerer reaction to generate and trap isomtinchnones. This group (190,191) has now adapted the intramolecular version of this tactic to the synthesis of several alkaloids of the pyridine, quinolizidine, and clavine classes. In each case, a 2-pyridone serves as the keystone intermediate. For example, Kuethe and Padwa (190) employed this Pummerer reaction of imidosulfoxides that contain tethered iz-bonds in a formal synthesis of the frog alkaloid ( )-pumiliotoxin C. They also used this methodology to synthesize the azafluorenone alkaloid onychine (295) (Scheme 10.42) (191). Generation of the thionium ion 291 under standard... 

For alkenyl nitrile oxides having the alkene in a cyclic structure, such as compound 141, high diastereoselectivities can be obtained (Scheme 12.47). Compound 141 is formed in situ, and undergoes a spontaneous cyclization to furnish 142 as the sole diastereomer. Toyota et al. (239) used the tricyclic isoxazoline 143 in the synthesis of (+)-pumiliotoxin C. 

Thus, (2R)-pumiliotoxin C (214) has been prepared from (R)-norvaline (212). The asymmetric center in the triene (213) controls the configuration at three carbon atoms 210). a-Kainic acid, isolated from the algae Digena simplex and Centrocerus clavulatum, was prepared by total synthesis. Its enantioselective synthesis involved a stereocon trolled intramolecular cycloaddition of a (S)-glutamic acid211). Asymmetric cycloadditions also play a decisive role in the synthesis of chiral cytochalasins. In this case 212> the primary chiral information was carried by (S)-alanine and (S)-phenylalanine, respectively. 

As shown in Table I, this reaction sequence has wide generality and is readily applicable to the straightforward synthesis of various naturally occurring alkaloids such as coniine,9 pumiliotoxin C,11 1 and solenopsin A and B.11 Oxime sulfonates of either linear or cyclic structures may be used. Obviously, the regioselectivity of the reaction follows the general rule of... 

A very recent synthesis of ( )-pumiliotoxin C employed the nitrone cyclization product (29), obtained in 74% overall yield from the nitrone precursors.12b Reduction of (29) with zinc-acetic acid provided a trisubstituted piperidine which was converted in several steps to ( )-pumiliotoxin C. 

This sequence was used for an efficient synthesis of rf/-pumiliotoxin C (2), a frog toxin, from 1. 

Meyers, A. I. Milot, G. a-Alkylation and stereochemistry of cis- and trans-decahydroqui-nolines mediated by the formamidine and Boc activating groups. Synthesis of pumiliotoxin C.J. Am. Chem. Soc. 1993, 335, 6652-6660. Elworthy, T. R. Meyers, A. I. The configurational stability of chiral lithio a-amino carbanions. The effect of Li-O vs Li-N complexa-tion. Tetrahedron 1994, 50, 6089-6096. 

Decahydroquinoline Alkaloids.—Full details of an earlier briefly described synthesis of ( )-pumiliotoxin C have been published.28 Other total syntheses of the same compound have been documented, starting from trans-4-hexenal,29 and from ethyl tra s-buta-l,3-diene-l-carbamate.30 An enantioselective synthesis of natural (-)-pumiliotoxin-C hydrochloride (34) has also been described (Scheme 6),... 

The submitters successfully used this reduction procedure ii synthesis of ( )-pumiliotoxin C, see Comins, D. L. Dehghani, A Lett. 1991, 32, 5697. 

Thus optically pure shikimic acid (347) has been synthesized via the addition of 1,4-diacetoxybuta-diene (345) to (340a), whereas the Diels-Alder reaction of )V-dienylcarbamate (348) to hydroxy enone (340b) served as the key step for a synthesis of the enantiomer (350) of naturally occurring pumiliotoxin C (142) (c/. Scheme 35). 

This Ru(II)-catalyzed hydration of nitriles is a highly useful transformation as demonstrated inter alia in the synthesis of (-)-pumiliotoxin C in a reaction sequence involving retro-aldol reaction, hydration, and cyclization (Scheme 10.9) [13]. 

Treatment of a wide variety of oxime sulfonates with several equivalents of alkyl-aluminum reagents in CH2CI2 resulted in formation of the imines, which were directly reduced with excess DIBAH to give the corresponding amines, as shown in Sch. 19. This organoaluminum-promoted Beckmann Rearrangement of oxime sulfonates has been successfully applied to the stereoselective synthesis of naturally occurring alkaloids, pumiliotoxin C, and solenopsin A and B, as illustrated in Sch. 20 [43]. 

Under neutral conditions Ru(II) complexes catalyze the nucleophilic addition of water to nitriles to yield amides [155], The reaction proceeds via external nucleophilic attack of water to the transition metal-activated nitrile. Under similar conditions <5-ketonitriles are converted into ene-lactams, a reaction that has found elegant application in a short diastereoselective synthesis of (-)-pumiliotoxin C (Sch. 37) [156]. 

A sequence of tandem-Mannich-Michael reactions and conjugate additions of organocuprates has been used for the synthesis of enantiomerically pure alkaloids such as (—)-dihydro-pinidine 193, the indolizidine alkaloid (5/, 8a/ )-gephyrotoxin 167B 194 and the decahydroquinoline alkaloid 4a- p/-pumiliotoxin C 195 (Figure 10.18) [150]. 

For the synthesis of the trans-mmulsitQd 4a- p/-pumiliotoxin C 195 (Scheme 10.66), the imine prepared from galactosyl amine 150 and 5-hexenal was reacted with Danishefsky s diene to give the 2-substituted dehydropiperidinone derivative 196 with high diastereoselectivity. The subsequent addition of propyl cuprate promoted by borontrifluoride etherate furnished the 2,6-c/5 -disubstituted... 

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