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On the stereochemistry of the Pictet-Spengler reaction
Tetrahedron Letters,Vo1.28,No.43,pp 5181-5184,1987 Printed in Great Britain
0040-4039187 $3.00 + .oo Pergamon Journals Ltd.
ON THE STEREOCHEMISTRY OF THE PICTET-SPENGLER REACTION
Patrick D Bailey Department of Chemistry, University of York, Heslington, York YOl 5DD, U.K. Summary. A pathway for the Pictet-Spengler reaction is proposed herein, which is consistent with all of the known mechanistic and sterochemical observations concerning the formation of tetrahydro-B-carbolines by this method. tetrahydro-B-carboline
The
alkaloids,
indole continues
to
be
is a
central feature of many
the
the Pictet-Spengler reaction (Scheme 1) most widely used method of synthesising the
tricyclic
crucial
enantiospecific stereochemical ever. 2
An demonstrated
ring-system.l With emphasis now resting on the synthesis of natural products, the importance of control in the Pictet-Spengler reaction is greater than
indication
of
the
ease
of stereochemical
control was
in
the previous paper, .in which it was shown that low temperatures induce cis selectivity in the formation of
reaction simple single
moiety
and
1,3_disubstituted tetrahydro-9-carbolines.3 Nevertheless, no mechanism has been proposed which is consistent with all of the
known stereochemical features of the Pictet-Spengler reaction.
fJ-JflR~ (1)
RCHo’H+-
R’ Scheme 1
There reaction of
which
However,
is
now
overwhelming
evidence
that
the
Pictet-Spengler
the stereochemistry
proceeds through a spiro-intermediate,4 is presumably retained during the subsequent migration step. recent isotopic labelling experiments suggest that the
The formation of such spiroindolenines is both rapid and reversible.5 sequence outlined in Scheme 2 is consistent, therefore, with the known mechanistic features of the reaction: moreover, this pathway
5181
5182
offers
the first
concerning
full explanation
the formation
for the stereochemical
of tetrahydro-f+carbolines
Scheme Thus,
with
an
starting aldehyde
cation
(3a/b), relationship. 6 place
with
ring,
giving
from
the
Nucleophilic
rise
stereochemistry
presumably
which
the C=N group
below
intermediates
or
groups this
on
above
(4a) or
respect
to
the nucleophile
and the developing
the E-iminium
display
iminium the plane
ion
a can
trans take
of the indole
(4b) respectively;'
is governed
Deslongchamps, a who noted that such additions
(11, condensation
mainly
generates
attack
either
derivative
bulkiest
to spiroindolenines
of these
2
the &-tryptophan
R-CHO in
observations
by this method.
the
by the observations
can take place lone pair
trans with
of electrons.
of
5183
BY
invoking
involves
a
the
"late"
single
cis-1,3-disubstituted favoured
by
this
because
is
preferred
tetrahydro-
conditions
the
(4b);
(obviously)
in
slightly
via the thermodynamically precisely
Moreover, the
the
if the indole
observed
reduction
due to an increase
For
would
formation
of
(4a)
stereochemistry be
all-cis;
the
formed: oroducts. small
then
in
(4b). paper.3
(i.e. R1 # H), again
(i.e.
the E-iminium
effectively
then
be expected,
R3 = CH2Ph),
cation
prohibited
(4b) would
of the L,3-substituents if the aldehyde
However, amounts
(3a/b),
of the Z-iminium
but
because
Spiro-intermediate
of spiroindolenine
yield
the
predominate
the previous
tryptophan
via
be
significant
the would
thus lead to in the final
side-chain cation
(R)
would
be
either
accountina
&
stereo-selectivity temperatures,
substituted
of
proceed
relationship
could
pyrrolidine
strain."
B-carbolines.12
therebv
the -cis or trans 1,3-disubstituted for the reduced trans selectivity with
aldehydes.13.
The all
rz
would
trans
this
A
were
"chair"
Spiro-intermediate
noted
the
(3a) = (3b)e
might
of this 1,2,3_trisubstituted
observed
small,
less
in cis selectivity lo would
rearrangement
tetrahydrowere
nitrogen
derivatives
again
piperidine
[(4a)+
higher
preferred
observation
in Al,2
Nu-benzyl
reaction
be able to adopt
tetrahydro-B-carboline
This
is
whilst at
be
low temperature):
trana-1,3-disubstituted
shown
trans-1,3-disubstituted
would
equilibrium
therefore,
be
(R3 = H) would
(e.g.
the resulting
initial the
(5a)
control
substituents
positions
favour
Spiro-intermediate would
B-carboline
kinetic
ring
However,
would
(4b)I
of
the
equatorial
structure.
assumption that the migration step state, 9 formation of the protonated
transition
the
known
Pictet-Spengler
reaction.
stereochemical
REFERENCES
in Scheme
mechanistic
and
control
therefore,
2 is consistent,
features
stereochemical
Application
of key tetrahydro-I%carbolines
preparation precise
outlined
pathway
of
of
these
is already
in the synthesis
ideas leading
of indole
with of the the
to
to more
alkaloids.
AND NOTES
1 a) G. Massiot b) T. Suzuki,
and T. Mulamba,
J. Chem.
Sot.,
Chem.
E. Sato,
K. Unno,
and T. Kametani,
S. Sato,
E. Goto,
and K. Ogasawara,
Commun.,
Heterocycles,
1984,
715;
1985, 2,
835 and 839: c) s. Takano, Commun.,
1986,
156.
J. Chem.
Sot.,
Chem.
5184
2
a)
b)
D.M.
Massiot
G.
and T. Mulamba,
Harrison
and R.B.
c) M. Nakagawa, M.
Taniguchi,
H. Fukushima, and T. Hino,
d) M. Nakagawa, Lett., e) P.D.
Bailey,
Commun.,
1985,
3
M. Hongu,
S.P. Hollinshead,
F. Ungemach
5
P.D. Bailey,
6
Inversion/rotation
and J.M.
Cook,
J. Chem.
J. Org.
Inversion
to give
then
(see Note
Res.,
J. Hammond,
F. Ungemach, Cook,
11
F. Johnson,
12
F. Ungemach,
13
46,
Sot.,
McLay,
Tetrahedron
Chem.
Lett.,
1987,
of the imine
1978, 2, 1089.
202.
is expected
(see M. Pankratz
and
1985, -50, 4553, and references therein), still be governed by the thermodynamic imines.
at nitrogen
could If this
must
be retained: factors
then
readily
take place
intermediate the
if it re-equilibrates
should
regain
to the
the imine -E/Z ratio
Tetrahedron,
J. Amer.
Chem.
D. Soerens, J. Amer. Chem.
Sot.,
1955, 11,
R. Weber,
Chem.
Rev.,
1975, -31, 2463.
Sot.,
M. DiPierro,
M. DiPierro,
1980,
1968, E,
334.
102,
0. Campos,
375.
R. Weber,
and E. Winterfeldt,
in UK 21 August
1987)
P. Mokry,
6976.
and J.M.
Cook,
J. Org.
164.
P. Flecker
(Received
J. Chem.
6).
9
1981,
1986, -27, 3235. and T. Hino, Tetrahedron
Chem.,
thermodynamic
P. Deslongchamps,
and J.M.
and N.R.
the tetrahydro-f3-carboline,
8
10
Lett.,
of the spiroindolenine.
1,3-stereochemistry imine,
1147;
T. Kawate,
Heterocycles,
of stereochemistry
formation
proceeds
1983,
paper.
but the -E/Z ratio would stability of the isomeric
after
M. Hongu,
and Z. Dauter,
S.P. Hollinshead,
4
7
Commun.,
1986, 27, 521; S. Kodato, T. Une,
6217:
preceding
R.F. Childs,
T. Kawate,
Chem.
Lett.,
1507.
P.D. Bailey,
1987, 28,
Sot.,
Tetrahedron
Tetrahedron
S. Kodato,
1986, 27,
J. Chem.
Sharma,
Tetrahedron,
1984, 40, 4853.
Chem.,
0040-4039187 $3.00 + .oo Pergamon Journals Ltd.
ON THE STEREOCHEMISTRY OF THE PICTET-SPENGLER REACTION
Patrick D Bailey Department of Chemistry, University of York, Heslington, York YOl 5DD, U.K. Summary. A pathway for the Pictet-Spengler reaction is proposed herein, which is consistent with all of the known mechanistic and sterochemical observations concerning the formation of tetrahydro-B-carbolines by this method. tetrahydro-B-carboline
The
alkaloids,
indole continues
to
be
is a
central feature of many
the
the Pictet-Spengler reaction (Scheme 1) most widely used method of synthesising the
tricyclic
crucial
enantiospecific stereochemical ever. 2
An demonstrated
ring-system.l With emphasis now resting on the synthesis of natural products, the importance of control in the Pictet-Spengler reaction is greater than
indication
of
the
ease
of stereochemical
control was
in
the previous paper, .in which it was shown that low temperatures induce cis selectivity in the formation of
reaction simple single
moiety
and
1,3_disubstituted tetrahydro-9-carbolines.3 Nevertheless, no mechanism has been proposed which is consistent with all of the
known stereochemical features of the Pictet-Spengler reaction.
fJ-JflR~ (1)
RCHo’H+-
R’ Scheme 1
There reaction of
which
However,
is
now
overwhelming
evidence
that
the
Pictet-Spengler
the stereochemistry
proceeds through a spiro-intermediate,4 is presumably retained during the subsequent migration step. recent isotopic labelling experiments suggest that the
The formation of such spiroindolenines is both rapid and reversible.5 sequence outlined in Scheme 2 is consistent, therefore, with the known mechanistic features of the reaction: moreover, this pathway
5181
5182
offers
the first
concerning
full explanation
the formation
for the stereochemical
of tetrahydro-f+carbolines
Scheme Thus,
with
an
starting aldehyde
cation
(3a/b), relationship. 6 place
with
ring,
giving
from
the
Nucleophilic
rise
stereochemistry
presumably
which
the C=N group
below
intermediates
or
groups this
on
above
(4a) or
respect
to
the nucleophile
and the developing
the E-iminium
display
iminium the plane
ion
a can
trans take
of the indole
(4b) respectively;'
is governed
Deslongchamps, a who noted that such additions
(11, condensation
mainly
generates
attack
either
derivative
bulkiest
to spiroindolenines
of these
2
the &-tryptophan
R-CHO in
observations
by this method.
the
by the observations
can take place lone pair
trans with
of electrons.
of
5183
BY
invoking
involves
a
the
"late"
single
cis-1,3-disubstituted favoured
by
this
because
is
preferred
tetrahydro-
conditions
the
(4b);
(obviously)
in
slightly
via the thermodynamically precisely
Moreover, the
the
if the indole
observed
reduction
due to an increase
For
would
formation
of
(4a)
stereochemistry be
all-cis;
the
formed: oroducts. small
then
in
(4b). paper.3
(i.e. R1 # H), again
(i.e.
the E-iminium
effectively
then
be expected,
R3 = CH2Ph),
cation
prohibited
(4b) would
of the L,3-substituents if the aldehyde
However, amounts
(3a/b),
of the Z-iminium
but
because
Spiro-intermediate
of spiroindolenine
yield
the
predominate
the previous
tryptophan
via
be
significant
the would
thus lead to in the final
side-chain cation
(R)
would
be
either
accountina
&
stereo-selectivity temperatures,
substituted
of
proceed
relationship
could
pyrrolidine
strain."
B-carbolines.12
therebv
the -cis or trans 1,3-disubstituted for the reduced trans selectivity with
aldehydes.13.
The all
rz
would
trans
this
A
were
"chair"
Spiro-intermediate
noted
the
(3a) = (3b)e
might
of this 1,2,3_trisubstituted
observed
small,
less
in cis selectivity lo would
rearrangement
tetrahydrowere
nitrogen
derivatives
again
piperidine
[(4a)+
higher
preferred
observation
in Al,2
Nu-benzyl
reaction
be able to adopt
tetrahydro-B-carboline
This
is
whilst at
be
low temperature):
trana-1,3-disubstituted
shown
trans-1,3-disubstituted
would
equilibrium
therefore,
be
(R3 = H) would
(e.g.
the resulting
initial the
(5a)
control
substituents
positions
favour
Spiro-intermediate would
B-carboline
kinetic
ring
However,
would
(4b)I
of
the
equatorial
structure.
assumption that the migration step state, 9 formation of the protonated
transition
the
known
Pictet-Spengler
reaction.
stereochemical
REFERENCES
in Scheme
mechanistic
and
control
therefore,
2 is consistent,
features
stereochemical
Application
of key tetrahydro-I%carbolines
preparation precise
outlined
pathway
of
of
these
is already
in the synthesis
ideas leading
of indole
with of the the
to
to more
alkaloids.
AND NOTES
1 a) G. Massiot b) T. Suzuki,
and T. Mulamba,
J. Chem.
Sot.,
Chem.
E. Sato,
K. Unno,
and T. Kametani,
S. Sato,
E. Goto,
and K. Ogasawara,
Commun.,
Heterocycles,
1984,
715;
1985, 2,
835 and 839: c) s. Takano, Commun.,
1986,
156.
J. Chem.
Sot.,
Chem.
5184
2
a)
b)
D.M.
Massiot
G.
and T. Mulamba,
Harrison
and R.B.
c) M. Nakagawa, M.
Taniguchi,
H. Fukushima, and T. Hino,
d) M. Nakagawa, Lett., e) P.D.
Bailey,
Commun.,
1985,
3
M. Hongu,
S.P. Hollinshead,
F. Ungemach
5
P.D. Bailey,
6
Inversion/rotation
and J.M.
Cook,
J. Chem.
J. Org.
Inversion
to give
then
(see Note
Res.,
J. Hammond,
F. Ungemach, Cook,
11
F. Johnson,
12
F. Ungemach,
13
46,
Sot.,
McLay,
Tetrahedron
Chem.
Lett.,
1987,
of the imine
1978, 2, 1089.
202.
is expected
(see M. Pankratz
and
1985, -50, 4553, and references therein), still be governed by the thermodynamic imines.
at nitrogen
could If this
must
be retained: factors
then
readily
take place
intermediate the
if it re-equilibrates
should
regain
to the
the imine -E/Z ratio
Tetrahedron,
J. Amer.
Chem.
D. Soerens, J. Amer. Chem.
Sot.,
1955, 11,
R. Weber,
Chem.
Rev.,
1975, -31, 2463.
Sot.,
M. DiPierro,
M. DiPierro,
1980,
1968, E,
334.
102,
0. Campos,
375.
R. Weber,
and E. Winterfeldt,
in UK 21 August
1987)
P. Mokry,
6976.
and J.M.
Cook,
J. Org.
164.
P. Flecker
(Received
J. Chem.
6).
9
1981,
1986, -27, 3235. and T. Hino, Tetrahedron
Chem.,
thermodynamic
P. Deslongchamps,
and J.M.
and N.R.
the tetrahydro-f3-carboline,
8
10
Lett.,
of the spiroindolenine.
1,3-stereochemistry imine,
1147;
T. Kawate,
Heterocycles,
of stereochemistry
formation
proceeds
1983,
paper.
but the -E/Z ratio would stability of the isomeric
after
M. Hongu,
and Z. Dauter,
S.P. Hollinshead,
4
7
Commun.,
1986, 27, 521; S. Kodato, T. Une,
6217:
preceding
R.F. Childs,
T. Kawate,
Chem.
Lett.,
1507.
P.D. Bailey,
1987, 28,
Sot.,
Tetrahedron
Tetrahedron
S. Kodato,
1986, 27,
J. Chem.
Sharma,
Tetrahedron,
1984, 40, 4853.
Chem.,