Benzestrol
Benzestrol is a synthetic nonsteroidal estrogen of the stilbestrol group which was formerly used medically but has since been discontinued. The stilbestrol estrogens, the best-known of which is diethylstilbestrol were used extensively in the mid-1900s and were finally banned by the FDA due to them causing tumors in the children of women who used them.
Medical uses
Benzestrol and other stilbestrol were used as synthetic estrogens in order to prevent premature births. Based on the idea that premature births happened because the mother did not produce enough estrogen on her own, doctors prescribed benzestrol to mothers in order to increase their estrogen levels.Studies have been done in the past on normal, mature and castrate female rats. Benzestrol produced the same type of estrus in the castrate rat when injected at 0.8 to 1.0 micrograms as when the rat was injected with 2.0 to 2.5 micrograms of estrone. This is significant because less benzestrol could be used to produce the same effect as estrone in increasing estrogen production. It has been used in the past as a nonsteroidal estrogen antagonist.
Pharmacology
Pharmacodynamics
Benzestrol is described as a very potent estrogen. It is reported to have about 130% of the relative binding affinity of estradiol for the estrogen receptors.Chemistry
Benzestrol is usually grouped with the stilbestrol estrogens. However, benzestrol is technically not a stilbestrol derivative because its central chain is elongated by one carbon. In any case, it is a very close analogue of the stilbestrol estrogens.A recent article discusses the isomer stereochemistry.
Synthesis
The chemical synthesis has been discussed: Improved: Patents: Book notes :A Claisen-Schmidt condensation between anisaldehyde and p-methoxybutyrophenone gives the substituted chalcone . Soft addition of ethylmagnesium bromide to the conjugate system gives introduces a second ethyl group into the molecule to yield 2-Ethyl-1,3-bispentan-1-one, PC71777307.. For the next step, addition of methylmagnesium bromide to the remaining carbonyl gave the carbinol. Dehydration of the alcohol and reduction of the olefin gives Benzestrol Dimethyl Ether . Cleavage of both the ethers then completes the synthesis of Benzestrol.