Estrone methyl ether


Estrone methyl ether, or estrone 3-methyl ether, is a synthetic estrogen and estrogen ether – specifically, the C3 methyl ether of estrone – which was never marketed.

Chemistry

Synthesis

A couple of enantioselective routes were disclosed by E.J. Corey et al:
  1. Dane's diene route:
  2. & 1-vinyl-6-methoxy-1-tetralol route:
The starting material in the above schematic was named "Dane’s diene" after Elisabeth Dane. The first step is a Diels-Alder reaction with 2-Methyl-2-cyclopenten-1-one to give . The next step yields . Conjugation of the enone olefin double bond with the other olefin for the next step resulted in the "Torgov diene" . Reduction of the olefin bonds completes the synthesis of the target molecule. An 88% yield was reported for the last step. The preparation of the catalyst is shown underneath.
The racemic version is very high yielding:
The Torgov Cyclization has some fundamental differences from Dane's route but both methods give the intermediate Torgov diene . It is named after a USSR chemist called Igor Torgov.
The starting material is called 6-Methoxy-1-tetralone Some older methods are included for historical context. This compound finds dual use in the synthesis of the SERM compounds Lasofoxifene & Nafoxidine. It can be rearranged to 6-methoxy-2-tetralone, one known application is in the synthesis of Tolnapersine.
Smith & Hughes work is also worthy of consideration. In Lednicer's book on steroids reference is made to 6-oxaestrogens. Although no references were provided in the book the following citations could be found online: In this process the catalytic hydrogenation step of the two olefins adds the hydrogens to the alpha face of the steroid. This is not the same as natural configuration. Lednicer claims that if the catalytic hydrogenation is performed in acetic acid then the 8-iso hydrogen equilibrates so as to yield the favored trans 8–9 ring juncture.
Other learning materials:

Applications

Estrone methyl ether has use in the synthesis of the following steroids:
  1. Mestranol. Mestranol in-turn is the precursor chemical to Norgesterone.
  2. Dienogest.
  3. Norethandrolone For the purposes of comparison, see the related compound Ethylmetrienone, which is totally synthetic but finds use in the synthesis of Norboletone. N.B. although Birch reduction of Estrone methyl ether was the original method of synthesizing Norethandrolone, it is interesting to learn that a newer method than this was patented recently. This newer improved method of synthesis relied of a precursor that is called Bolandione.
  4. The reduction of the ketone in estrone methyl ether gives estradiol methyl ether. This in-turn, was used in the synthesis of Noretynodrel.
  5. The Birch reduction of Estrone methyl ether gives Nandrolone since the 17-keto group is reduced concomitantly during this step. Back-oxidation occurs to give Bolandione; this in-turn can be used to make Norethisterone & Allylestrenol.
  6. With a suitable demethylating agent can be used to make estrone.
  7. Clomestrone
  8. Prenortestosterone can be brominated. 2x dehydrohalogenation step then leads to dienolone.
  9. Epimestrol
  10. Ethylestrenol
  11. The Nandrolone also finds use in the synthesis of mibolerone, LS-1727, Cingestol, Lynoestrenol, Estradiol-3-amine & as the starting material that fulvestrant is made from. & tibolone & trestolone.
  12. Plomestane