Wieland-Miescher ketone

Wieland-Miescher ketone

The Wieland-Miescher ketone is a bicyclic di-ketone (enedione) and is a versatile synthon which has so far been employed in the total synthesis of more than 50 natural products, predominantly sesquiterpenoids, diterpenes and steroids possessing possible biological properties including anticancer, antimicrobial, antiviral, antineurodegenerative and immunomodulatory activities. The reaction is named after two chemists from Ciba Geigy, Karl Miescher and Peter Wieland (not to be confused with Heinrich Otto Wieland). Examples of syntheses performed using this ketone as a starting material are that of ancistrofuran and in the Danishefsky Taxol total synthesis.

Most advances in total synthesis methods starting from Wieland-Miescher ketone were fueled by the search for alternative methods for the industrial synthesis of contraceptive and other medicinally relevant steroids, an area of research that flourished in the 1960s and 1970s. Wieland-Miescher ketone contains the AB-ring structure of steroids and is for this reason an attractive starting material for the steroid skeleton, an approach used in one successful synthesis of adrenosterone.

The original Wieland-Miescher ketone is racemic and prepared in a Robinson annulation of 2-methyl-1,3-cyclohexanedione and methyl vinyl ketone. The intermediate alcohol is not isolated. The required 2-methyl-1,3-cyclohexanedione can be prepared from resorcinol by hydrogenation over Raney nickel to dihydroresorcinol as the enolate followed by alkylation with methyl iodide.

An enantioselective synthesis employs L-proline as a chiral auxiliary in catalytic amounts:

This reaction appeared in 1971 in the patent literature by Z. G. Hajos and D. R. Parrish. In this patent, the isolation and characterization of the above pictured optically active intermediate bicyclic ketol (in parenthesis above) has also been described, because they worked at ambient temperature in anhydrous dimethylformamide (DMF) solvent. Working in DMSO solvent does not allow isolation of the bicyclic ketol intermediate, it leads directly to the optically active bicyclic dione. The reaction is called the Hajos-Parrish reaction or the Hajos-Parrish-Eder-Sauer-Wiechert reaction..

This reaction has also been performed in a one-step procedure:

References

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