ABSTRACT
Novel Synthetic Routes to 14(3,17(3-Propano and Cyclopenta[14,15] 19-Norsteroids
Pia Gail Mountford, Chemistry Department, University of Cape Town, Rondebosch 7700,
February 1995
An efficient synthetic strategy for the stereoselective introduction of a 14(3-allyl
group to estrone 3-methyl ether has been developed. The approach involves regio- and
stereoselective Diets-Alder cycloaddition of acrolein to 3-methoxyestra-1,3,5(10),14,16-
pentaen-17-yl acetate. Hydride reduction of the formyl group of the cycloadduct,
followed by tosylation of the resultant primary hydroxy group, gave rise to a 17(3-alkoxy
161-tosylate. Base-mediated Wharton fragmentation of the 1,3-removed diol derivative
produced the 14(3-allyl .! _17-ketone. Chemoselective conjugate reduction of the ring
enone gave rise to 14-allyl-3-methoxy-14(3-estra-1,3,5(10)-trien-17-one in 51% overall
yield for five steps.
Regioselective oxidation of the 14(3-allyl group furnished precursors for
intramolecular coupling reactions with the 17-oxo group, providing access to a series of
14(3,17(3-propanoestradiol and 'estriol' analogues.
Wacker oxidation of the 14-allyl-3-methoxy-14(3-estra-1,3,5(10),15-tetraen-17-
one gave rise to both the 14(3-acetonyl and 14(3-formylethyl derivatives. The acetonyl
enone underwent cerium(III)-mediated aldol condensation with the 17-oxo group to yield
the 14(3,17(3-propano .! -estradiol analogue. This series of (3-face propano bridged
estradiols displayed no competitive binding affinity for the estradiol receptor. The
enolisable 14(3-acetonyl group was also shown to undergo smooth Michael addition to
C(15). The product, 3-methoxy-3'H,l5aH-cyclopenta[14,15]-14f3-estra-1,3,5(1 0)-triene-
4'(5'11),17-dione, was regioselectively deoxygenated and reduced to yield the 3,17-
estradiol analogues. The 3,17(3-estradiol displayed promising binding affinity for the
estradiol receptor site, whereas the 17a-epimer was biologically inactive.
The 14(3-formylethyl enone underwent vinylogous reductive cyclisation with
C(lS), to yield the 3'-hydroxy cyclopenta[14,15] 17-ketone. No regioselective coupling
with the 17-oxo group was observed.
Various attempts to homologate ring D of the 14f3-allyl17-ketone or its .! _
analogue are described, none of which were successful. However, the silyl enol ether
derivative of estrone 3-methyl ether underwent facile cyclopropanation of the .! 16-bond.
Iron(III) chloride-mediated cleavage of the zero bridge of the resultant bicyclo[3.1.0]
hexanoid intermediate gave rise to the D-homo .! 16_17a-ketone. Conversion of the en one
into the derived 14,16-dienyl 17a-ketone furnished an intermediate for conjugate addition
studies.
MOUNTFORD, P (2021). Novel Synthetic Routes To 14,17 Propano And Cyclopenta[14,15] 19-Norsteroids. Afribary. Retrieved from https://afribary.com/works/novel-synthetic-routes-to-14-17-propano-and-cyclopenta-14-15-19-norsteroids
MOUNTFORD, PIA "Novel Synthetic Routes To 14,17 Propano And Cyclopenta[14,15] 19-Norsteroids" Afribary. Afribary, 15 May. 2021, https://afribary.com/works/novel-synthetic-routes-to-14-17-propano-and-cyclopenta-14-15-19-norsteroids. Accessed 30 Nov. 2024.
MOUNTFORD, PIA . "Novel Synthetic Routes To 14,17 Propano And Cyclopenta[14,15] 19-Norsteroids". Afribary, Afribary, 15 May. 2021. Web. 30 Nov. 2024. < https://afribary.com/works/novel-synthetic-routes-to-14-17-propano-and-cyclopenta-14-15-19-norsteroids >.
MOUNTFORD, PIA . "Novel Synthetic Routes To 14,17 Propano And Cyclopenta[14,15] 19-Norsteroids" Afribary (2021). Accessed November 30, 2024. https://afribary.com/works/novel-synthetic-routes-to-14-17-propano-and-cyclopenta-14-15-19-norsteroids