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Oxidation of spiroethers with t -butyl chromate
Tetrahedron
Letters N0.58,
pp. 5057-5059,
1970.
Pergamon Press.
CDIIDATICN OF SPIRCETHERS G. F. Reynolds, Merck
G. H. Rasmusson,
Sharp & Uohme
Research
(Received in USA 6 November 1970; As both logically
the 17-spiroether')
active
facilitate
steroids,
the preparation
The conversion
ether.
Other
generated
from a reduced
We
the molecule. 17-spiroether
were
moiety
one-step
of both and permit group
to a spiroether
to the corresponding
lactone,
by a one-step
In the course
of studies
on the introduction
standard
only 4% yield
and an appreciable
We were ethers Via')
lactone, 6, III,
lactones
reaction
occurred
IVb6), Vb2)
respectively.
of
address:
to obtain
members
of the of both
function
into
38-acetoxy-2',
t-butyl
chromate
oxi-
the anticipated
II, was obtained
in
With
isolable
of Chemistry,
5057
as well.
of t-butyl
at the position
that the method
Dept.
in
of 3-(3~-acetoxy-17~-hydroxy-7-oxo-5-androsten-l7a-
that the 19-norsteroid
indicates
conversion
(5-androsten-7-one)6),
this reaction
as easily
are present
namely,
for this type of reaction
this reaction.
selectively
and VIb2)
The fact
conditions
a)Present
the scope
process,
of a 7-0~0
(23X), was isolated
thus led to investigate
to determine oxidation
amount
or be re-
reaction.
conditions5)
3'a-tetrahydrofuran-2'-Spiro-17
to the
This mode of transforma-
(5-androstene) 4) , I, the traditional
38-acetoxy-2',
acid
in this sequence
such as halides,
as a method
by reduc-
is then ring-closed
step.
substituents,
the reverse
in bio-
properties.
has been accomplished3)
oxidative
preferably
yl)propionic
USA
are of importance
must be protected
labile
thus led to explore
3'a-tetrahydrofuran-2'-Spiro-17
07065
of their biological
open chain diol which
in the molecule
when hydride
Under
New Jersey
of one group to the other would
a comparison
of compounds,
dant was employed.
and G. E. Arth
moieties
conversion
state by a subsequent
tion also has limitations
types
a simple
groups
Rahway,
and 17-spirolactone2)
to the corresponding
carbonyl
CHRCIMATB
L. Birladeanua),
Laboratories,
in Great Britain.
received in lK for publication 13 November 1970)
of the spirolactone
tion of the lactone
WITH t-BUTYL
Printed
chromate
the keto-spiroethers o- to the ether oxygen
products
in yields
Via was not noticeably is reasonably
Harvard
with other
specific.
University,
spiro-
IVa 7) , Va') affording
and the
of 4056, *@I, and 30!% aromatized Although
Cambridge,
under
the
we have made
Mass.
02138.
No.58
5058
no attempt indicated
to find optimum
Typically,
acetic
a solution
anhydride.
urated
of 200 g
of the steroid
was worked
The mixture
was refluxed
oxalic
acid solution
up and the crude product
the desired
lactone
lactone
tetroxide.")
occurring
The cooled
until
separated
in 4%
yield
The lactone resulted
IVb was formed in extensive
acetic
the course
reaction
gas evolution
was made at the selective
tion to completion
shows
mixture
as
by chromatography quantities after
of ethylacetate
but attempts
X=l-L2,Y=H2
II
x = 0,
Y'H2
IVa
Y=H2
III
x = 0,
y=o
IVb
y=o
Vb
R=CH3,Y=0
Y=H2
Via
R = H,
Y'H2
VIb
R = H,
y=o
was
from
being
with
The organic
on silica
side-reactions.
R =CH3,
was treated
sat-
solution
gel, elution in benzene.
of The
MeOH/H20.
of IVa to IVb utilizing
to some extent
Va
of the reaction
recrystallization
oxidation
tetrachloride
acid and 0.4 ml of
was complete.
AC I
of its action,
that it can be of value
Va in 4 ml of carbon
for 2-4 hrs,
with increasing
Vb was obtained
An attempt
mixture,
chromate, 5, 0.8 ml of glacial
by thin layer chromatography.
aqueous
desired
of the reaction
the selectivity
of this type.')
with 2.8 ml of t-butyl
followed
for this oxidation
by thin layer chromatography
in transformations
treated
conditions
ruthenium
to drive
the reac-
No.58
5059
References 1.
G. E. Arth,
H. Schwam,
2.
J. A. Cella,
E. A. Brown
R. D. Muir and J. 3.
E. A. Brown, used
4.
Cella,
2. E.
2. 9.
a.,
6_, 617
21, 743
Chem.,
(1963).
(1959); B. A. Brown,
ibid., 25, 96 (1960).
3,364,207
(Jan. 16, 1968) and also unpublished
procedures
laboratories.
point
compound
A.
and M. Glitzer,
and R. R. Eurtner,
U.S. Patent
in these
Melting
L. Sarett
139-140'.6)
described
Prepared
by acetylation
by R. A. Firestone
of the corresponding
and U(. Sletzinger,
U.S. Patent
3$-hydroxy
3,365,475
(Jan.
23, 1968). 5.
K. Heusler
6.
All new compounds constants c
and A. Wettstein,
Helv. --
described
in this paper
for new materials
236mu
(612,500);
Chim.
described
A-,
35,
gave
herein:
III, m.p. 273-275',
284 (1952).
satisfactory II, m.p.
[aID cHc13
analyses.
CHc13-148.3, [aID
178-180°,
-143.5,
e
236rqr (~13,000),
.&Dc13 4.26 (s,lH), 7.95 (s,3H), 8.76 (s,3H), 9.03 (s,3H), M+ 400; 160°, 7.
[a]gHC13
+50.6,
G. H. Rasmussen,
MeoH &,,,
A. Chen,
247m~
The physical
IVb, m-p.
158-
(&16,500).
G. F. Reynolds,
A. A. Patchett
and G. B. Arth,
2. s.
s.,
in press. 8.
Other
reagents
which
bromine
convert 9.
G. Cainelli, Chim. --
10.
ethers
solutions12)
B. Kamber, 518
a) L. M. Berkowitz J.
to convert
steroidal
tetroxide.
ethers
lob)
Chromic
to lactones
are chrom-
acid in acetone 11)
acid 13) have also been found
and trichloroisocyanuric
to
into esters.
Acta, 44,
Wolff,
used
acid 9 ) and ruthenium
ium trioxide-acetic buffered
have been
J.
Keller,
M. Lj. Mihailovic,
D. Arigoni
and 0. Jerger,
Helv.
(1961). and P. N. Rylander,
F. Kerwin,
F. F. wings,
2. -Am. Chem. s.,
B. B. Lewis
so, 6682
and B. Blank,
2. s.
(1963). 11.
H. B. Henbest
and E. Nicholls,
12.
N. C. Deno and N. H. Potter,
2. Am. -- Chem.
13.
E. C. Juenge
Tetrahedron
and D. A. Beal,
J. Chem. K., -=.,
227 2,
Letters,
(1959). 3550 (1967). 5819
(1968).
(1958). Chem.,
b) M. E. 28, 2729
Letters N0.58,
pp. 5057-5059,
1970.
Pergamon Press.
CDIIDATICN OF SPIRCETHERS G. F. Reynolds, Merck
G. H. Rasmusson,
Sharp & Uohme
Research
(Received in USA 6 November 1970; As both logically
the 17-spiroether')
active
facilitate
steroids,
the preparation
The conversion
ether.
Other
generated
from a reduced
We
the molecule. 17-spiroether
were
moiety
one-step
of both and permit group
to a spiroether
to the corresponding
lactone,
by a one-step
In the course
of studies
on the introduction
standard
only 4% yield
and an appreciable
We were ethers Via')
lactone, 6, III,
lactones
reaction
occurred
IVb6), Vb2)
respectively.
of
address:
to obtain
members
of the of both
function
into
38-acetoxy-2',
t-butyl
chromate
oxi-
the anticipated
II, was obtained
in
With
isolable
of Chemistry,
5057
as well.
of t-butyl
at the position
that the method
Dept.
in
of 3-(3~-acetoxy-17~-hydroxy-7-oxo-5-androsten-l7a-
that the 19-norsteroid
indicates
conversion
(5-androsten-7-one)6),
this reaction
as easily
are present
namely,
for this type of reaction
this reaction.
selectively
and VIb2)
The fact
conditions
a)Present
the scope
process,
of a 7-0~0
(23X), was isolated
thus led to investigate
to determine oxidation
amount
or be re-
reaction.
conditions5)
3'a-tetrahydrofuran-2'-Spiro-17
to the
This mode of transforma-
(5-androstene) 4) , I, the traditional
38-acetoxy-2',
acid
in this sequence
such as halides,
as a method
by reduc-
is then ring-closed
step.
substituents,
the reverse
in bio-
properties.
has been accomplished3)
oxidative
preferably
yl)propionic
USA
are of importance
must be protected
labile
thus led to explore
3'a-tetrahydrofuran-2'-Spiro-17
07065
of their biological
open chain diol which
in the molecule
when hydride
Under
New Jersey
of one group to the other would
a comparison
of compounds,
dant was employed.
and G. E. Arth
moieties
conversion
state by a subsequent
tion also has limitations
types
a simple
groups
Rahway,
and 17-spirolactone2)
to the corresponding
carbonyl
CHRCIMATB
L. Birladeanua),
Laboratories,
in Great Britain.
received in lK for publication 13 November 1970)
of the spirolactone
tion of the lactone
WITH t-BUTYL
Printed
chromate
the keto-spiroethers o- to the ether oxygen
products
in yields
Via was not noticeably is reasonably
Harvard
with other
specific.
University,
spiro-
IVa 7) , Va') affording
and the
of 4056, *@I, and 30!% aromatized Although
Cambridge,
under
the
we have made
Mass.
02138.
No.58
5058
no attempt indicated
to find optimum
Typically,
acetic
a solution
anhydride.
urated
of 200 g
of the steroid
was worked
The mixture
was refluxed
oxalic
acid solution
up and the crude product
the desired
lactone
lactone
tetroxide.")
occurring
The cooled
until
separated
in 4%
yield
The lactone resulted
IVb was formed in extensive
acetic
the course
reaction
gas evolution
was made at the selective
tion to completion
shows
mixture
as
by chromatography quantities after
of ethylacetate
but attempts
X=l-L2,Y=H2
II
x = 0,
Y'H2
IVa
Y=H2
III
x = 0,
y=o
IVb
y=o
Vb
R=CH3,Y=0
Y=H2
Via
R = H,
Y'H2
VIb
R = H,
y=o
was
from
being
with
The organic
on silica
side-reactions.
R =CH3,
was treated
sat-
solution
gel, elution in benzene.
of The
MeOH/H20.
of IVa to IVb utilizing
to some extent
Va
of the reaction
recrystallization
oxidation
tetrachloride
acid and 0.4 ml of
was complete.
AC I
of its action,
that it can be of value
Va in 4 ml of carbon
for 2-4 hrs,
with increasing
Vb was obtained
An attempt
mixture,
chromate, 5, 0.8 ml of glacial
by thin layer chromatography.
aqueous
desired
of the reaction
the selectivity
of this type.')
with 2.8 ml of t-butyl
followed
for this oxidation
by thin layer chromatography
in transformations
treated
conditions
ruthenium
to drive
the reac-
No.58
5059
References 1.
G. E. Arth,
H. Schwam,
2.
J. A. Cella,
E. A. Brown
R. D. Muir and J. 3.
E. A. Brown, used
4.
Cella,
2. E.
2. 9.
a.,
6_, 617
21, 743
Chem.,
(1963).
(1959); B. A. Brown,
ibid., 25, 96 (1960).
3,364,207
(Jan. 16, 1968) and also unpublished
procedures
laboratories.
point
compound
A.
and M. Glitzer,
and R. R. Eurtner,
U.S. Patent
in these
Melting
L. Sarett
139-140'.6)
described
Prepared
by acetylation
by R. A. Firestone
of the corresponding
and U(. Sletzinger,
U.S. Patent
3$-hydroxy
3,365,475
(Jan.
23, 1968). 5.
K. Heusler
6.
All new compounds constants c
and A. Wettstein,
Helv. --
described
in this paper
for new materials
236mu
(612,500);
Chim.
described
A-,
35,
gave
herein:
III, m.p. 273-275',
284 (1952).
satisfactory II, m.p.
[aID cHc13
analyses.
CHc13-148.3, [aID
178-180°,
-143.5,
e
236rqr (~13,000),
.&Dc13 4.26 (s,lH), 7.95 (s,3H), 8.76 (s,3H), 9.03 (s,3H), M+ 400; 160°, 7.
[a]gHC13
+50.6,
G. H. Rasmussen,
MeoH &,,,
A. Chen,
247m~
The physical
IVb, m-p.
158-
(&16,500).
G. F. Reynolds,
A. A. Patchett
and G. B. Arth,
2. s.
s.,
in press. 8.
Other
reagents
which
bromine
convert 9.
G. Cainelli, Chim. --
10.
ethers
solutions12)
B. Kamber, 518
a) L. M. Berkowitz J.
to convert
steroidal
tetroxide.
ethers
lob)
Chromic
to lactones
are chrom-
acid in acetone 11)
acid 13) have also been found
and trichloroisocyanuric
to
into esters.
Acta, 44,
Wolff,
used
acid 9 ) and ruthenium
ium trioxide-acetic buffered
have been
J.
Keller,
M. Lj. Mihailovic,
D. Arigoni
and 0. Jerger,
Helv.
(1961). and P. N. Rylander,
F. Kerwin,
F. F. wings,
2. -Am. Chem. s.,
B. B. Lewis
so, 6682
and B. Blank,
2. s.
(1963). 11.
H. B. Henbest
and E. Nicholls,
12.
N. C. Deno and N. H. Potter,
2. Am. -- Chem.
13.
E. C. Juenge
Tetrahedron
and D. A. Beal,
J. Chem. K., -=.,
227 2,
Letters,
(1959). 3550 (1967). 5819
(1968).
(1958). Chem.,
b) M. E. 28, 2729