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Facile and stereoselective synthesis of 25-hydroxyvitamin d2
Tetrahedron Printed in
Letters,Vol.25,No.31,pp Great Britain
3347-3350,1984
FACILE AND STEREOSELECTIVE
Sachiko
Masami
Yamada,
Faculty
SYNTHESIS
Shiraishi,
Sagamiko,
OF 25-HYDROXYVITAMIN
Masayuki
of Pharmaceutical
Ohmori,
Sciences,
Kanagawa
0040-4039/84 $3.00 + .oo 01984 Pergamon Press Ltd.
and
D2
Hiroaki
Takayama"
Teikyo University
199-01, Japan
Summary: 25-Hydroxyvitamin D was synthesized conveniently and stereoselectively for the first time by utilizing Sharp 1 ess' chiral epoxidation and the subsequent regio- and stereoselective methylation with lithium dimethylcuprate to introduce the desired chirality at C(24) and the reductive elimination of the vicinal hydroxy sulfone to introduce stereoselectively the & double bond at C(22) of the target molecule.
Similarly
to the natural
at the 25-position expressing
in the
its biological
hydroxyvitamin
D3 derivatives
latters
in birds.
uncertain has
been
studies.
additional
chiral
complicated. olites lective and
in mammals
because the synthesis
biological
Compared
chiral
vitamin
The gross
structure
synthon
reports
in this series.
molecule
l/5 to l/10
25-hydroxyvitamin
of 25-
to the corresponding less
active
however,
than
the
has remained
D2 nor la,25_dihydroxyvitamin
compounds
D3 derivatives,
D2
has not been available
vitamin
D2 derivatives
bond at C(22), making
on the stereoselective
We report
activity
synthesis
developed
common
for
have
their synthesis of vitamin
a facile
an
more
D metab-
and stereose-
to 25-hydroxyvitamin
now the first and stereoselective
D2 (la) synthesis
D2 (la)." -
steroid
was synthesized
are
the side chain structure
D2 (z).
in the kidney 3p4 before
1s similar
D2 (lJ)6
of these
must be hydroxylated
that the biological
center on the side chain, we have
for constructing
of 25-hydroxyvitamin
la-position
of these metabolites,
at C(24) and an 1 double
la,25_dihydroxyvitamin
target
material
As a part of our studies7
method
at the
but the formers importance
with
D2 (ergocalciferol)
It has been known
of neither
and enough
center
possessing
then
and la,25_dihydroxyvitamin
The biological
established
D3,l vitamin
liver 2,3 and activity.
D2 (la)5
vitamin
vitamin
of the target
2 and Cg-chiral
starting la was r\r
synthon
The chiral with prenol introduced
compound
was constructed
3b, in a similar
synthon
2
by utilizing
3347
manner as described
to constitute
(4) and the desired
from the two segments,
in our previous
the C(23)-C(28) side chain part
chirality
Sharpless'
C22-
chiral
for the 24-position epoxidation9
of the
followed
by
3348
regio- and stereoselective trans-double sulfoneL
bond
(1 equiv)
chiral
epoxide
in the presence 2
r.t.) gave
proceeded
The
spectrum
2
(92%).
optical
The
established
purity
stereochemical
cupper
reagent. lo
was converted
90%), reaction
70 "C,
99%),12 and protection
0 "C) of 2
proceeded
by deprotection
Liin
with thiophenol
of the hydroxyl
good yield
(65%).
95% EtOH,
side chain
was in good agreement
into
25-hydroxyvitamin
The all
118;
spectrum,
UV
spectral
(95% EtOH)
1.03 (3 H, d, J = 6.5 HZ),
with
265 nm; 1.13
by the standard
Reductive
the desired
sole 1H NMR
provitamin
introduced pattern
method;
D 2
of 6a -
tosylation
(Na2W04, H202,
95%).
The
reaction
from ergosterol,7'13 (5% Na-Hg,
Na2HP04,
product which
D (8b) (95%) Cv
22(23) double
of the olefinic The provitamin followed
with
by deprotection
8a (52%) as the sole -
irradiation
of the vitamin (CDC13)
obtained
of the well
of epoxides
6 Hz), 1.14 (3H, s), 1.17
that of ergosterol.
(3 H, s), 1.16
-20 "C)
by its
oxidation
desulfonylation9
E olefin
the coupling
'H NMR
NaH,
(93%) as the
and alkylation
THF, -78"C),
D2 (la) (31%) by UV rV
properties
(Et20,
S on the basis
group (DHP, PPTS, CH2C12,
of the newly
where
isopro-
(PhCH2C1,
LiCuMe2 e
3b. -
-20' C) to give
90% as determined
(_t-BuOK, DMF, 91%),
affording
40 "C) gave
titanium
(CH2C12,
alcohol
6a was assigned rV
3b (71%, overall) N
The _E stereochemistry
by the 'H NMR
with
to give
exceeds
and
by benzylation 2
8-hydroxy-
2 and the sulfone
([o]22 D -2.5", 0.18% CHC13) obtained
stereoselectively
(PPTS,
m)].
supported
zation.
epoxide
6 1.00 (3 H, d, J = 7 Hz), 1.06 (3 H, d, J =
-5.6(48,
which
of the epoxidation9
with C(22)-aldehydeA(LDA,
gave 8-hydroxysulfone
(1 equiv)
of
The 22(23)
3-(heptafluoropropylhydroxymethylene)-d-
of the alcohol
Diol 2
pyridine,
%
shift reagent,
consequence
(TsCl,
2
tartrate
of the
desulfonylation"
(1.1 equiv)
(25%),
of the alcohol
to the phenylsulfone
of the sulfone
1% CHC13)
(LiCuMe2).1°
of the aldehyde
regio- and stereoselectivity
The configuration
camphorate.
formed
by the coupling
reaction
in the presence of chiral
(CDC13)
by reductive
of D-(-)-dibutyl
([cx]~~ D +17.12",
with exclusive
product.
136,
selectively
dimethylcuprate
(4) was treated with m-butylhydroperoxide N
poxide
organ0
was introduced
with lithium
which in turn was obtained
Prenol
DMSO,
methylation
[lH NMR
(3H, s), 5.3
bond in 2 protons Ds
at the
was trans-
by thermal
isomeri-
[MS m/e 412 (M+), 394, 271, 253,
6 0.56 (3 H, s), 0.99 (3 H, d, J = 7.5 Hz),
(3 H, s), 3.95 (1 H, m), 4.81 (1 H, d, J = 2
Hz), 5.03 (1 H, m), 5.33 (2 H, m), 6.01 (1 H, d, J = 11 Hz), 6.23 (1 H, d, J = 11 Hz)] synthesized olite. 2
support
the structure
was
and are in good agreement
with
those of the natural
thus
metab-
Letters,Vol.25,No.31,pp Great Britain
3347-3350,1984
FACILE AND STEREOSELECTIVE
Sachiko
Masami
Yamada,
Faculty
SYNTHESIS
Shiraishi,
Sagamiko,
OF 25-HYDROXYVITAMIN
Masayuki
of Pharmaceutical
Ohmori,
Sciences,
Kanagawa
0040-4039/84 $3.00 + .oo 01984 Pergamon Press Ltd.
and
D2
Hiroaki
Takayama"
Teikyo University
199-01, Japan
Summary: 25-Hydroxyvitamin D was synthesized conveniently and stereoselectively for the first time by utilizing Sharp 1 ess' chiral epoxidation and the subsequent regio- and stereoselective methylation with lithium dimethylcuprate to introduce the desired chirality at C(24) and the reductive elimination of the vicinal hydroxy sulfone to introduce stereoselectively the & double bond at C(22) of the target molecule.
Similarly
to the natural
at the 25-position expressing
in the
its biological
hydroxyvitamin
D3 derivatives
latters
in birds.
uncertain has
been
studies.
additional
chiral
complicated. olites lective and
in mammals
because the synthesis
biological
Compared
chiral
vitamin
The gross
structure
synthon
reports
in this series.
molecule
l/5 to l/10
25-hydroxyvitamin
of 25-
to the corresponding less
active
however,
than
the
has remained
D2 nor la,25_dihydroxyvitamin
compounds
D3 derivatives,
D2
has not been available
vitamin
D2 derivatives
bond at C(22), making
on the stereoselective
We report
activity
synthesis
developed
common
for
have
their synthesis of vitamin
a facile
an
more
D metab-
and stereose-
to 25-hydroxyvitamin
now the first and stereoselective
D2 (la) synthesis
D2 (la)." -
steroid
was synthesized
are
the side chain structure
D2 (z).
in the kidney 3p4 before
1s similar
D2 (lJ)6
of these
must be hydroxylated
that the biological
center on the side chain, we have
for constructing
of 25-hydroxyvitamin
la-position
of these metabolites,
at C(24) and an 1 double
la,25_dihydroxyvitamin
target
material
As a part of our studies7
method
at the
but the formers importance
with
D2 (ergocalciferol)
It has been known
of neither
and enough
center
possessing
then
and la,25_dihydroxyvitamin
The biological
established
D3,l vitamin
liver 2,3 and activity.
D2 (la)5
vitamin
vitamin
of the target
2 and Cg-chiral
starting la was r\r
synthon
The chiral with prenol introduced
compound
was constructed
3b, in a similar
synthon
2
by utilizing
3347
manner as described
to constitute
(4) and the desired
from the two segments,
in our previous
the C(23)-C(28) side chain part
chirality
Sharpless'
C22-
chiral
for the 24-position epoxidation9
of the
followed
by
3348
regio- and stereoselective trans-double sulfoneL
bond
(1 equiv)
chiral
epoxide
in the presence 2
r.t.) gave
proceeded
The
spectrum
2
(92%).
optical
The
established
purity
stereochemical
cupper
reagent. lo
was converted
90%), reaction
70 "C,
99%),12 and protection
0 "C) of 2
proceeded
by deprotection
Liin
with thiophenol
of the hydroxyl
good yield
(65%).
95% EtOH,
side chain
was in good agreement
into
25-hydroxyvitamin
The all
118;
spectrum,
UV
spectral
(95% EtOH)
1.03 (3 H, d, J = 6.5 HZ),
with
265 nm; 1.13
by the standard
Reductive
the desired
sole 1H NMR
provitamin
introduced pattern
method;
D 2
of 6a -
tosylation
(Na2W04, H202,
95%).
The
reaction
from ergosterol,7'13 (5% Na-Hg,
Na2HP04,
product which
D (8b) (95%) Cv
22(23) double
of the olefinic The provitamin followed
with
by deprotection
8a (52%) as the sole -
irradiation
of the vitamin (CDC13)
obtained
of the well
of epoxides
6 Hz), 1.14 (3H, s), 1.17
that of ergosterol.
(3 H, s), 1.16
-20 "C)
by its
oxidation
desulfonylation9
E olefin
the coupling
'H NMR
NaH,
(93%) as the
and alkylation
THF, -78"C),
D2 (la) (31%) by UV rV
properties
(Et20,
S on the basis
group (DHP, PPTS, CH2C12,
of the newly
where
isopro-
(PhCH2C1,
LiCuMe2 e
3b. -
-20' C) to give
90% as determined
(_t-BuOK, DMF, 91%),
affording
40 "C) gave
titanium
(CH2C12,
alcohol
6a was assigned rV
3b (71%, overall) N
The _E stereochemistry
by the 'H NMR
with
to give
exceeds
and
by benzylation 2
8-hydroxy-
2 and the sulfone
([o]22 D -2.5", 0.18% CHC13) obtained
stereoselectively
(PPTS,
m)].
supported
zation.
epoxide
6 1.00 (3 H, d, J = 7 Hz), 1.06 (3 H, d, J =
-5.6(48,
which
of the epoxidation9
with C(22)-aldehydeA(LDA,
gave 8-hydroxysulfone
(1 equiv)
of
The 22(23)
3-(heptafluoropropylhydroxymethylene)-d-
of the alcohol
Diol 2
pyridine,
%
shift reagent,
consequence
(TsCl,
2
tartrate
of the
desulfonylation"
(1.1 equiv)
(25%),
of the alcohol
to the phenylsulfone
of the sulfone
1% CHC13)
(LiCuMe2).1°
of the aldehyde
regio- and stereoselectivity
The configuration
camphorate.
formed
by the coupling
reaction
in the presence of chiral
(CDC13)
by reductive
of D-(-)-dibutyl
([cx]~~ D +17.12",
with exclusive
product.
136,
selectively
dimethylcuprate
(4) was treated with m-butylhydroperoxide N
poxide
organ0
was introduced
with lithium
which in turn was obtained
Prenol
DMSO,
methylation
[lH NMR
(3H, s), 5.3
bond in 2 protons Ds
at the
was trans-
by thermal
isomeri-
[MS m/e 412 (M+), 394, 271, 253,
6 0.56 (3 H, s), 0.99 (3 H, d, J = 7.5 Hz),
(3 H, s), 3.95 (1 H, m), 4.81 (1 H, d, J = 2
Hz), 5.03 (1 H, m), 5.33 (2 H, m), 6.01 (1 H, d, J = 11 Hz), 6.23 (1 H, d, J = 11 Hz)] synthesized olite. 2
support
the structure
was
and are in good agreement
with
those of the natural
thus
metab-