Towards the total synthesis of (±)-steganacin

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Abstract

(3aR)-14a-Acetoxy-3aß,4,14,14aa-tetrahydro-6,7,8-trimethoxybenzo[3,4]furo[3',4':6,7]cycloocta[1,2-f][1,3]benzodioxol-3(1H)-one (steganacin), 56, has been a popular synthetic target due to its perceived cytotoxic activity. Our proposed strategy for the construction of the key 8-membered ring embedded within steganacin was via an oxidative phenolic coupling of an appropriate (3R,4R)-4-(benzo[d][1,3]dioxol-5-ylmethyl)-3-benzyldihydrofuran-2(3H)-one analogue which were shown to be readily available from commercially available piperonal in six linear steps involving chain extension, reduction, trichloroacetylation and cyclisation via a copper-catalysed Atom Transfer Radical Cyclisation (ATRC) reaction. In this way, copper-catalysed ATRC reaction of (E)-6-(benzo[d][7’,9’]dioxol-1’-yl)allyl-1,1,1-trichloroacetate afforded (R)-4-{(R)-benzo[d][1,3]dioxol-5-ylchloromethyl}-3,3-dichlorodihydrofuran-2(3H)-one in good isolated yield as a mixture of diastereosiomers. Regiospecific functionalisation of these trihalides at the benzylic position (via an SN1, solvolysis, pathway), followed by dehalogenatioin and subsequent enolate alkylation afforded the key butyrolactone intermediates whose oxidative cyclisation was the key bond construct in our approach to steganacin. Contrary to our expectations it was observed that these substrates suffer intramolecular Friedel-Crafts alkylation reactions, favouring a 3a,4,9,9a-tetrahydronaphtho[2,3-c]furan-1(3H)-one (6 member ring) formation, rather than phenolic oxidative coupling reactions that would favour the steganacin-like (3aR,11aR,Z)-3a,4,11,11a-tetrahydrobenzo[4,5]cycloocta[1,2-c]furan-1(3H)-one (8 member ring) formation, when the oxidant has any Lewis acid capacity. Taking these observations into account we believe that by judicious choice of synthetic route the ATRC chemistry developed during the current research could be applied to a highly convergent (9 step) route to the synthesis of deoxypodophylotoxin.This work also describes, in detail, the efforts of this worker to establish and optimise a robust route that potentially can lead to the formation of steganacin via the alternative route of an initial microwave-assisted Pd-mediated biaryl coupling of either bromopiperonal or an halogenated derivative of the described γ-butyrolactones with an appropriate boronic acid derived from commercially available 3,4,5-trimethoxybenzalcohol to afford the biaryl scaffold present in steganacin. The completion of this synthesis was unfortunately left unaccomplished due to time constraints.

Layman's Abstract

A synthetic route for the synthesis of Steganacin, a popular cytotoxic candidate, via a radical cyclisation pathway was investigated. The suggested route, contrary to our expectations, lead to the synthesis of retrodeoxypodophylotoxin. We believe that the chemistry developed during the current research can be applied to a highly convergent (9 step) route to the synthesis of another cytotoxic canditate such as deoxypodophylotoxin.This work also describes our efforts to optimise a Pd-mediated microwave-assisted biaryl coupling.

Keyword(s)

ATRC; Pd-mediated biaryl coupling; atom transfer; microwave-assisted ; podophylotoxin; steganacin

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