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d ring synthon
Tetrahedron Letters,Vol.29,No.41,pp Printed in Great Britain
SEQUENTIAL
CLAISEN-ENE
APPROACH
TO CARBOCYCLIZATION:
A NEW ENTRY TO A STEROID
Kazuhiko Department
Summary:
of Chemical
A new
sequential involving
and
facile
combination
The
bond
intramolecular
propargyl (es
entry
ether This
lL2
synthesis
ene
of a steroid
now describe be easily is whether
in this
derived the
we have
1 can create observation
ring
the
Claisen-ene
Claisen
group
the
is described
been
Its
Scheme
can
ene
as one ene
is that
Thus,
be achieved
152,
which
relies
ene
reaction
of efficient
cyclization
Japan
on the
our
the
requisite
an intriguing
in tandem
to the
strategy ene
problem
for
fashion
methodology basic
tools
of the crotyl
diastereoselective
cyclization
1 illustrates
key feature
rearrangement.
emerging
in a highly this
Tokyo
as the enophile.
the thermal
that
center
Nakai* Meguro-ku,
intramolecular
reported
synthon.3
sequence4
synthon
with
has currently
us to apply
communication.
via
ring
rearrangement
a quarternary
prompted
C/D
C/D
and Takeshi
of Technology,
methoxycarbonyl
reaction
Recently
Institute
to a steroid
with
C/D RING SYNTHON
Ko'ichi Mikami,
Tokyo
of the Claisen
an acetylenic
carbocyclization.'
Takahashi,
Technology,
0040-4039/88 $3.00 + .oo Pergamon Press plc
5277-5280,1988
which
substrate in this
we 4 can
strategy
or not.
&J’“-- #OzCH3 (1)
Scheme
1 CO2CH3 ene
3 HO
,& CH3O2C
3
5277
5278
The
requisite
alcohol
a straightforward salt
85 under high
substrate
3 in 84%
THF:
R-TsOH,
Thus,
standard
condition
the
extremely
3 (Claisen
manner.
stereoselectivity yield
substrate)
7 was
[D-BuLi,
standard
prepared
to the
'Cl
9 was
three-step
from
Wittig
THF. -78 Enyne
(>98% L).6
by the
was
subjected
the protected
reaction
to afford
then
using
76% yield
converted
operation
7 in
phosphonium
of enyne
to the
[D-Bu4NF,
acetoin
the
9 with
Claisen
THF; D-BuLi/ClC02CH3,
CH30H].
THPO MeSdPh3';
2
3'
With
a
large
a-propenyl
methyl
spontaneously product yield
5.
We found
and with
Claisen On
low
that
occurrence
basis
[Hg(OAc)2.
the the
at a lower
the
out
ene
yield
follows.
of the
relatively
selectivity.
CH3
ketal
next
occur
hope
rearrangement
that
the
Claisen
the desired
in tandem
4).7g8
:
[lo0
This
yield the
with product
cyclization
to give
low
involving
'C.
[pTsOH,
moiety
1 day]
more
in 4a
= 8
on the
is apparently
:
5 only may
in 29%
be attributed
carbonyl
reaction the
group
after
Claisen
of
by ketalization ketal
4a was
gave
product rise
protection
rearrangement [HOCH2CH20H,
then
subjected
to
in an increased
5a
to the
desired
methyl
2).7
in diastereoselectivity
ketone
A (endo)
favorable
R. depending
The
of 5a
increase to the
ene
Thus,
the cyclization
acetone]
states
the
followed
yield.
(trans/cis
relative
4a
out
isolated.
90 h] to give
transition
and
carried
once
is the significant
is sterically
between bulky
170 'C.
ketal
Of the two possible
repulsion
the
to yield
reactions
in 71% overall
4a
Deprotection
interest
cyclization
we
stereoselectivity
the trans-configuration steric the
ketal
[toluene,
enhanced
Of particular the ene
did = 6
of ene
product
temperature
to afford
cyclization
5 with
type
of the Claisen
(86%) as expected.
ketone
sequence
the Claisen
with
reaction
(trans/cis
observation,
was
benzene]
2 days],
ene
Claisen-ene
attempted
4.'
of these
group
carried
first
170 'C,
of the other
of the carbonyl
pTsOH.
we
intramolecular
stereoselectivity
product
the
of 3 in hand,
ether
undergoes
to concurrent the
quantity
Me3Si
4. which
and
because bulkiness
8 (exe)," the of
responsible
observed
is readily the
latter R.
former
could
Thus,
explicable
to
the
presence
for the enhanced
as
leading
suffer
the
in
trans-
of
4
5279
r trans
Finally, ring
the
synthon
6 via
intramolecular [SiO2, 6'*
in 32%
In summary,
the
have
ity along
acyclic
Acknowledqment: Scientist
This
from
REFERENCES
the
AND
1. Reviews:
be noted
outlined
(CH3)2S]
to the
this
for
the
steroid
further
steroid
followed
chromatographic furnished
that
is useful
array. l3
was
Ministry
cyclization
facile
entry
here, although form
is well
Further
along
in part
Education,
made
starting
C/D
by the
purification pure
C/D
trans-isomer
ring
construction
methodology,
to the
synthon
6
of A/B
ring
line
and
Culture,
ring
active
specific
is under
by Grand-in-Aid
combined C/D
form, could
optically
to attain
this
Science
steroid
in racemic with
established
work
supported
of
the ene
and
active
concerned
work
that
a unique
of the optically
rearrangement the
It should which
converted
Column
stereomixture
demonstrated
provides
transformation
Claisen
pyridine.
benzene].
5 was CH2C12,
chain. we
synthesis
product
resulting
multifunctionality
rearrangement.
overall
ene
[03,
[CH30Na.
5a .
from
of the
ozonolysis
l] of the
:
yield
as a side
Claisen
selective
= 5
overall
mixture
condensation
the unique
as well
The
the
aldol
hexane/AcOEt
possesses
to the
diastereomeric
for
in our
since of chiral-
laboratory.
Encouragement
Japan
the
be applicable acetoin,
transfer
way
with
synthon.
of Young
(No. 62750792).
NOTES
a) W. Oppolzer
D. F. Taber,
and
V. Snieckus,
"Intramolecular
Angew.
Diels-Alder
Chem.
and Alder
Ene
Int. Ed. Engl., Reactions",
11,
476
(1978);
Springer-Verlag,
b)
Berlin
(1984). 2. K. Mikami. 3. For
K. Takahashi,
leading
Money
and
T. Money,
more
Tetrahedron
4. A similar has
been
E. Ziegler 5. The
Lett..
type
standard has
24, 2,
and
465
1984,
(1983);
2813
F. E. Ziegler
the
sequence
C/D
1986.
288;
ring
M. Iijima,
synthon:
a) T.
b) J. H. Hutchinson.
J. 0. Winkler,
involving
J. J. Mencel. 127 (1984).
prepared
method
Commun..
d) K. Yamamoto,
2374.
of steroid
Stork,
and
salt
that
c)G.
3,
ibid.,
reported
1987,
and
N. A. Saccomano.
Y. Ogimura,
and
J. Tsuji,
(1984).
K. Mikami,
three-step
Lett.,
syntheses
Sot. Chem. 455;
Claisen-ene
8 was
Chem.
on the
J. Chem.
ibid.,
of tandem
reported:
phosphonium
6. Still
S. Piper,
Lett..
T. Nakai,
references
J. H. Hutchinson. and
Tetrahedron
and
recent
[EtMgBr. salt-free
in 38% overall Me3SiCl: Wittig
a simple
Tetrahedron
yield
TsCl, reaction
from
pyridine:
olefin Lett.,
as the enophile 25.
123
4-pentyn-l-01 PPh3.
of an O(-alkoxy
110
(1984);
by the
'Cl.
ketone
in the
F.
5280
presence Still, high
of
HMPA
3. Org.
proceeds
high
z-selectivity
(>98%)
of 9 was
independently
prepared
J. Am. Chem.
was
by
(1980). observed
either
with
by 13C NMR
Kishi's 101,
NMR
[LiAlH4;
isomer
was
stereochemistry
assigned
(200
(70%
isomer
involving
Minor
isomer
J. M. Conia
11. A similar
the
Y.
Cc
11.76
CL:
72.87
CH2N2;
basis
of the
pTsOH,
trans-
acetone]
to the
17 h] did
:6
:
6
1.03
(s, Cti3CO-). 3.69
triggered but
0.86
(s, Ct13CO-), 3.74
(cis-10)
sequence occur,
CDC13)
by the
in a poor
yield
(5. Ctl3-CZ). (s, Cli3CO2-). (s.
Cti3-Cf).
(s,
Ctl3CO2-).
Johnson (16%)
type
rearrange
and with
low
ene reactions
group
as the enophile
P. LePerchec.
state
involving
model
has
la
as the ene component
IO and/or
are conceivable.
Synthesis, been
an enol
proposed
1975.
1.
for
the
intramolecular
ene
reaction
by eq. l.2
'H NMR trans
related
and
transition
depicted
Claisen-ene 'C,
and
trans).
the carbonyl
10. Review:
200
The r-
its E-isomer
K. Akasaka,
on the
(trans-10)
2.17
intramolcular
9. For example,
12. 6:
H+.
[CH3C(OCH3)3,
selectivity
MHz,
Major
10
ment
to trans
2.13 2 H
a similar
a
CO2CH3
RuC13-NaI04;
0
that
W. C.
is established.3c
'H NMR
CH30
found
of HMPA.
65.15
CH302C 3
8. We also
and
however,
3 with
8
S03-pyridinelLiAlH4;
10 whose
compound
T. Fukuyama.
E-isomer
of the major
of 5a
formation
use
alcohol
7.
HO
(ppm)
3
configuration
the
of the
of
19.13 CL:
known
or without
G. Schmidt,
K. P. Durst,
reaction
(1979).
&:
7. The
Wittig
comparison
method:
259
13C
CH302C
C. Streekumar,
present
confirmed
Sot.,
Z-selectivity: In the
Chem.. '45, 4260
configuration
Kishi,
with
1.08
(s, (X3-CZ).
configuration trans
C/D
ring
5.90 (d. J = IO Hz,
of 6 was confirmed synthon
shown
by
COCH=CH).
its
'H NMR
Synthesis", (Received
"Chirality
Transfer
ed. J. D. Morrison,
in Japan
16 July
via
comparison
with
the
COCH=Cli);
closely
below 3d. 'H NMR
13. R. K. Hill,
7.30 (d, J = IO Hz,
Sigmatropic
Academic 1988)
Press
(ppm)
d CH3:
1.11
Ha:
5.94
Hb:
7.33
Rearrangements", Orland.
FL (1984),
in "Asymmetric Vol.
38, p. 503.
SEQUENTIAL
CLAISEN-ENE
APPROACH
TO CARBOCYCLIZATION:
A NEW ENTRY TO A STEROID
Kazuhiko Department
Summary:
of Chemical
A new
sequential involving
and
facile
combination
The
bond
intramolecular
propargyl (es
entry
ether This
lL2
synthesis
ene
of a steroid
now describe be easily is whether
in this
derived the
we have
1 can create observation
ring
the
Claisen-ene
Claisen
group
the
is described
been
Its
Scheme
can
ene
as one ene
is that
Thus,
be achieved
152,
which
relies
ene
reaction
of efficient
cyclization
Japan
on the
our
the
requisite
an intriguing
in tandem
to the
strategy ene
problem
for
fashion
methodology basic
tools
of the crotyl
diastereoselective
cyclization
1 illustrates
key feature
rearrangement.
emerging
in a highly this
Tokyo
as the enophile.
the thermal
that
center
Nakai* Meguro-ku,
intramolecular
reported
synthon.3
sequence4
synthon
with
has currently
us to apply
communication.
via
ring
rearrangement
a quarternary
prompted
C/D
C/D
and Takeshi
of Technology,
methoxycarbonyl
reaction
Recently
Institute
to a steroid
with
C/D RING SYNTHON
Ko'ichi Mikami,
Tokyo
of the Claisen
an acetylenic
carbocyclization.'
Takahashi,
Technology,
0040-4039/88 $3.00 + .oo Pergamon Press plc
5277-5280,1988
which
substrate in this
we 4 can
strategy
or not.
&J’“-- #OzCH3 (1)
Scheme
1 CO2CH3 ene
3 HO
,& CH3O2C
3
5277
5278
The
requisite
alcohol
a straightforward salt
85 under high
substrate
3 in 84%
THF:
R-TsOH,
Thus,
standard
condition
the
extremely
3 (Claisen
manner.
stereoselectivity yield
substrate)
7 was
[D-BuLi,
standard
prepared
to the
'Cl
9 was
three-step
from
Wittig
THF. -78 Enyne
(>98% L).6
by the
was
subjected
the protected
reaction
to afford
then
using
76% yield
converted
operation
7 in
phosphonium
of enyne
to the
[D-Bu4NF,
acetoin
the
9 with
Claisen
THF; D-BuLi/ClC02CH3,
CH30H].
THPO MeSdPh3';
2
3'
With
a
large
a-propenyl
methyl
spontaneously product yield
5.
We found
and with
Claisen On
low
that
occurrence
basis
[Hg(OAc)2.
the the
at a lower
the
out
ene
yield
follows.
of the
relatively
selectivity.
CH3
ketal
next
occur
hope
rearrangement
that
the
Claisen
the desired
in tandem
4).7g8
:
[lo0
This
yield the
with product
cyclization
to give
low
involving
'C.
[pTsOH,
moiety
1 day]
more
in 4a
= 8
on the
is apparently
:
5 only may
in 29%
be attributed
carbonyl
reaction the
group
after
Claisen
of
by ketalization ketal
4a was
gave
product rise
protection
rearrangement [HOCH2CH20H,
then
subjected
to
in an increased
5a
to the
desired
methyl
2).7
in diastereoselectivity
ketone
A (endo)
favorable
R. depending
The
of 5a
increase to the
ene
Thus,
the cyclization
acetone]
states
the
followed
yield.
(trans/cis
relative
4a
out
isolated.
90 h] to give
transition
and
carried
once
is the significant
is sterically
between bulky
170 'C.
ketal
Of the two possible
repulsion
the
to yield
reactions
in 71% overall
4a
Deprotection
interest
cyclization
we
stereoselectivity
the trans-configuration steric the
ketal
[toluene,
enhanced
Of particular the ene
did = 6
of ene
product
temperature
to afford
cyclization
5 with
type
of the Claisen
(86%) as expected.
ketone
sequence
the Claisen
with
reaction
(trans/cis
observation,
was
benzene]
2 days],
ene
Claisen-ene
attempted
4.'
of these
group
carried
first
170 'C,
of the other
of the carbonyl
pTsOH.
we
intramolecular
stereoselectivity
product
the
of 3 in hand,
ether
undergoes
to concurrent the
quantity
Me3Si
4. which
and
because bulkiness
8 (exe)," the of
responsible
observed
is readily the
latter R.
former
could
Thus,
explicable
to
the
presence
for the enhanced
as
leading
suffer
the
in
trans-
of
4
5279
r trans
Finally, ring
the
synthon
6 via
intramolecular [SiO2, 6'*
in 32%
In summary,
the
have
ity along
acyclic
Acknowledqment: Scientist
This
from
REFERENCES
the
AND
1. Reviews:
be noted
outlined
(CH3)2S]
to the
this
for
the
steroid
further
steroid
followed
chromatographic furnished
that
is useful
array. l3
was
Ministry
cyclization
facile
entry
here, although form
is well
Further
along
in part
Education,
made
starting
C/D
by the
purification pure
C/D
trans-isomer
ring
construction
methodology,
to the
synthon
6
of A/B
ring
line
and
Culture,
ring
active
specific
is under
by Grand-in-Aid
combined C/D
form, could
optically
to attain
this
Science
steroid
in racemic with
established
work
supported
of
the ene
and
active
concerned
work
that
a unique
of the optically
rearrangement the
It should which
converted
Column
stereomixture
demonstrated
provides
transformation
Claisen
pyridine.
benzene].
5 was CH2C12,
chain. we
synthesis
product
resulting
multifunctionality
rearrangement.
overall
ene
[03,
[CH30Na.
5a .
from
of the
ozonolysis
l] of the
:
yield
as a side
Claisen
selective
= 5
overall
mixture
condensation
the unique
as well
The
the
aldol
hexane/AcOEt
possesses
to the
diastereomeric
for
in our
since of chiral-
laboratory.
Encouragement
Japan
the
be applicable acetoin,
transfer
way
with
synthon.
of Young
(No. 62750792).
NOTES
a) W. Oppolzer
D. F. Taber,
and
V. Snieckus,
"Intramolecular
Angew.
Diels-Alder
Chem.
and Alder
Ene
Int. Ed. Engl., Reactions",
11,
476
(1978);
Springer-Verlag,
b)
Berlin
(1984). 2. K. Mikami. 3. For
K. Takahashi,
leading
Money
and
T. Money,
more
Tetrahedron
4. A similar has
been
E. Ziegler 5. The
Lett..
type
standard has
24, 2,
and
465
1984,
(1983);
2813
F. E. Ziegler
the
sequence
C/D
1986.
288;
ring
M. Iijima,
synthon:
a) T.
b) J. H. Hutchinson.
J. 0. Winkler,
involving
J. J. Mencel. 127 (1984).
prepared
method
Commun..
d) K. Yamamoto,
2374.
of steroid
Stork,
and
salt
that
c)G.
3,
ibid.,
reported
1987,
and
N. A. Saccomano.
Y. Ogimura,
and
J. Tsuji,
(1984).
K. Mikami,
three-step
Lett.,
syntheses
Sot. Chem. 455;
Claisen-ene
8 was
Chem.
on the
J. Chem.
ibid.,
of tandem
reported:
phosphonium
6. Still
S. Piper,
Lett..
T. Nakai,
references
J. H. Hutchinson. and
Tetrahedron
and
recent
[EtMgBr. salt-free
in 38% overall Me3SiCl: Wittig
a simple
Tetrahedron
yield
TsCl, reaction
from
pyridine:
olefin Lett.,
as the enophile 25.
123
4-pentyn-l-01 PPh3.
of an O(-alkoxy
110
(1984);
by the
'Cl.
ketone
in the
F.
5280
presence Still, high
of
HMPA
3. Org.
proceeds
high
z-selectivity
(>98%)
of 9 was
independently
prepared
J. Am. Chem.
was
by
(1980). observed
either
with
by 13C NMR
Kishi's 101,
NMR
[LiAlH4;
isomer
was
stereochemistry
assigned
(200
(70%
isomer
involving
Minor
isomer
J. M. Conia
11. A similar
the
Y.
Cc
11.76
CL:
72.87
CH2N2;
basis
of the
pTsOH,
trans-
acetone]
to the
17 h] did
:6
:
6
1.03
(s, Cti3CO-). 3.69
triggered but
0.86
(s, Ct13CO-), 3.74
(cis-10)
sequence occur,
CDC13)
by the
in a poor
yield
(5. Ctl3-CZ). (s, Cli3CO2-). (s.
Cti3-Cf).
(s,
Ctl3CO2-).
Johnson (16%)
type
rearrange
and with
low
ene reactions
group
as the enophile
P. LePerchec.
state
involving
model
has
la
as the ene component
IO and/or
are conceivable.
Synthesis, been
an enol
proposed
1975.
1.
for
the
intramolecular
ene
reaction
by eq. l.2
'H NMR trans
related
and
transition
depicted
Claisen-ene 'C,
and
trans).
the carbonyl
10. Review:
200
The r-
its E-isomer
K. Akasaka,
on the
(trans-10)
2.17
intramolcular
9. For example,
12. 6:
H+.
[CH3C(OCH3)3,
selectivity
MHz,
Major
10
ment
to trans
2.13 2 H
a similar
a
CO2CH3
RuC13-NaI04;
0
that
W. C.
is established.3c
'H NMR
CH30
found
of HMPA.
65.15
CH302C 3
8. We also
and
however,
3 with
8
S03-pyridinelLiAlH4;
10 whose
compound
T. Fukuyama.
E-isomer
of the major
of 5a
formation
use
alcohol
7.
HO
(ppm)
3
configuration
the
of the
of
19.13 CL:
known
or without
G. Schmidt,
K. P. Durst,
reaction
(1979).
&:
7. The
Wittig
comparison
method:
259
13C
CH302C
C. Streekumar,
present
confirmed
Sot.,
Z-selectivity: In the
Chem.. '45, 4260
configuration
Kishi,
with
1.08
(s, (X3-CZ).
configuration trans
C/D
ring
5.90 (d. J = IO Hz,
of 6 was confirmed synthon
shown
by
COCH=CH).
its
'H NMR
Synthesis", (Received
"Chirality
Transfer
ed. J. D. Morrison,
in Japan
16 July
via
comparison
with
the
COCH=Cli);
closely
below 3d. 'H NMR
13. R. K. Hill,
7.30 (d, J = IO Hz,
Sigmatropic
Academic 1988)
Press
(ppm)
d CH3:
1.11
Ha:
5.94
Hb:
7.33
Rearrangements", Orland.
FL (1984),
in "Asymmetric Vol.
38, p. 503.