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Aminoglycoside antibiotics: synthesis of nebramine, tobramycin and 4″-epi-tobramycin
Tetrahedron
Letters
NO. 41, PP 3607 - 3610, 1977.
Perwon
Press.
Printed
in Great Britain.
AMINOGLYCOSIDE ANTIBIOTICS: SYNTHESIS OF NEBRAMINE, TOBRAMYCIN AND 4"-EPI-TOBRAMYCIN Masato Tanabe,* Dennis M. Yasuda and George Stanford Research Institute 333 Ravenswood Avenue Menlo Park, California 94025
Detre
(Received in USA 28 June 1977; received in UK for publication 30 Au@&
In a study aimed at the partial synthesis of aminoglycoside improved
spectrum
of activity,
that can be converted
to a variety
study we have synthesized naturally
occurring
Our approach
we have devised
of semi-synthetic
tobramycin
aminoglycoside
practical
naturally
occurring
efficient
conversion
of neamine
(3'-deoxyneamine).
Nebramine
with an appropriate
sugar.
key intermediates
As an example Tobramycin
4" epimer.
an
of this is a
applications.2
neamine which
is easily obtained
from
In our study, two new methods have been developed for the
to the important
is converted
Hitherto,
showing
of several
aminoglycosides.
with useful clinical
aminoglycosides.
syntheses
as well as its unnatural
starts with the pseudodisaccharide
antibiotics'
1977)
key intermediate
to tobramycin
nebramine
pseudodisaccharide
and its analogs
has only been available
nebramine3
by Ga-glycosylation by selective
hydrolysis
of tobramycin.
In the first method, tetracarbobenzyloxyneamine4 trichloroethoxycarbonyl silica gel afforded
chloride
(5 equiv.)
in pyridine
55% of the 3'-trichloroethyl
and
4' hydroxyl
of the monoester
groups
depending
-1 with 2,2_dimethoxypropane
1, m.p.
for selective
upon the reagent
esterified
at -5' for 20 hr.
carbonate
This step is the key to this route since it allows 5,6
was selectively
used.
Chromatography
165-168';
reactions
For instance,
at 3' with on
a], 33' (CHCls).
at the remaining subsequent
treatment
in DMF with pTSA at 130' gave the 5,6 isopropylidene
3607
3608
No. 41
Xa
n
No. 41
3609
intermediate
2 (95%) from which the trichloroethyl
with ammonia
in methanol
fication method method,4
to afford the isopropylidene
thus affords
that resulted
carbonate
an improved
in a difficultly
function was selectively
derivative
route to 3, previously separable
This selective
2.
prepared
removed
3' esteri:
by an alternative
mixture of 5,6 and 3',4' monoisopropylidene
derivatives. Transformation
of 2 to a nebramine
Umezawa for the conversion tosyl chloride derivative genolysis
of kanamycin
in pyridine yielded
5 (65%), m.p. 96-lOO'C, of 5 with Raney nickel
Acetylation
which was required
for selective
3'-tosylate
derivative,
synthesis
of deoxy sugar.6
the nebramine
followed
derivative
the 3'-deoxy
6n-glycosylation
derivative
nebramine
derivative
S, m.p. 177-180°,
to give tobramycin
procedure
derivative
and its analogs.
of neamine to a
by Barton and McCombie
generated
hydride proceeded
which on hydrolysis
(45%) of
of nebramine.
nearnine -15 was treated with NaH
Treatment
in methylene
sulfide-triethylamine
for the
gave a higher overall yield
-16.
acetic
of -16 with the imidoyl
chloride
and THF, followed
the 3'-thionobenzoate
smoothly
in refluxing
-17.
by -in Reduction
toluene affording
with 80% acetic acid gave the desired
nebramine
19 _*
To complete
the synthesis
we took advantage
of tobramycin
of the well established
and its congeners
use of pyranosyl
from the pseudodisaccharide
halide derivatives
group at C-2 such as a benzyl ether to insure stereoselective
Thus 8 was condensed sulfate
with the pyranosyl
in dioxane and toluene
initially with ammonia of the N-carbobenzoxy hydroxide
6_, m.p. 185-190’.
with aqueous
reactions
derivative
Hydro-
hydrolysis
of tetracarbobenzyloxy
carbamate
with tributyltin E,
of zwith
, which was converted to the iodo
19, thus being the method of choice for the preparation
with hydrogen
derivative
3' tosylation
by
Acetonide
of a 3'-thionobenzoate
of N,N-dimethylbenzamide
of the thionobenzoate
route described
the 3'-deoxy derivative
the general method developed
in OMF to give the 4',6'-cyclic
situ treatment
Selective
4, m.p. 99-103'
blocked 4'-0-acetyl
This deoxygenation
The known 5,6-cyclohexylidene
chloride methochloride
an analogous
with sodium iodide in dry OMF at 95-100' for 20 hr.
the deoxygenation
nebramine
calcium
6 to tobramycin. 5
in dioxane afforded
selectively
A second method,
cipating
followed
of 5 gave the 4' acetate 7, m.p. 90-95'.
acid gave the desired
derivative
derivative
fractions
in methanol
The resulting
formation
and benzyl blocking
followed
cyanide and
by reductive
groups with sodium and liquid ammonia.
chromatography
of a-an0mers.s
mixture was sequentially
to remove the ester function,
from ion exchange
with a nonparti-
chloride zq in the presence of mercuric (1:2).
8,
deblocked, removal
The ammonium
on Biorex 70-H+ were deacetylated
by brief
3610
I!o. 41
treatment
with boiling sodium hydroxide
chiefly of tobramycin,
although minor amounts of the 68 and C-5 isomer were also detected.lO
Silica gel chromatography properties
afforded
tobramycin
as well as antibacterial
Similar
treatment
of tobramycin
to afford a mixture, that consisted
in 1:1-dioxane-water
-13 identical with a natural
sample in physical
activity.
of 8 with the galactopyranosyl
halide -10"
ultimately
gave the 4"-epimer
14, a]D 78' (HzO).
Other analogs glycosylation12
(e.g. the 3-amino xylo derivative)
of the nebramine
It is of interest
derivative
of tobramycin
were prepared
by C-6
19 _*
to note that 4"-epi-tobramycin
exhibits
a similar antibacterial
spectrum.
and potency to that of tobramycin. REFERENCES
1.
M. Kugelman,
A. K. Mallams,
H. F. Vernay,
AND NOTES
D. F. Crowe, G. Detre, M. Tanabe,
and D. M. Yasuda.
J. Chem. Sot. fPerkin I), 1097-1118 (1976). 2.
G. Jaffe, W. Ravreby, 6. R. Meyers, and S. Z. Hirschman. 75-81 (1974).
3.
D. F. Koch and J. A. Rhoades.
4.
Antimicr.
Ag. Chemother.
5,
Antimicr. Ag. Chemother.-1970,309-313 (1971).
S. Umezawa, S. Koto, K. Tatsuta,
H. Hineno,
Y. Nishimura,
and T. Tsumura.
BUZZ. &em.
Sot.
Japan 42, 537-541 (1969). T. Miyake,
T. Tsuchiya,
and S. Umezawa.
J. Antibiotics 26, 403-406
5.
Y. Takagi,
6.
D.H.R. Barton and S. W. McCombie.
7.
T. Jikihara, T. Tsuchiya, S. Umezawa, and H. Umezawa. 3507-3510 (1973); J. Antibiotics 24_,711-712 (1971).
8.
G. Wulff and G. Rohle.
9.
S. Koto, T. Tsumura, Y. Kato, and S. Umezawa.
J. &em. SOC. Perkin
II,
(1973).
1574-1585 (1975).
BUZZ. Chem. Sot. Japan 46,
Angew Chem. Intern&. Edit 13(3),
157-216 (1974).
BUZZ. Chem.
SOC.
Japan 41, 2765-2769
(1968).
10.
We have observed with neamine and gentamine derivatives that when both the C-5 and C-6 hydroxyl groups are available for glycosysation reaction occurs predominantly at C-6.
11.
U.S. Patent 3,985,727 (Oct. 12, 1976), P.J.L. Daniels (to Schering-Plough CO.). We thank Dr. P.J.L. Daniels and Mr. C. E. Lute for providing us with this galactopyranoside intermediate,.
12.
Unpublished
results.
Acknowledgements
We thank the Schering
Corporation,
Bloomfield,
New Jersey,
for their support of this work.
We also thank Drs. P.J.L. Daniels and A. K. Mallams of the Schering helpful discussions.
Corporation
for many
Letters
NO. 41, PP 3607 - 3610, 1977.
Perwon
Press.
Printed
in Great Britain.
AMINOGLYCOSIDE ANTIBIOTICS: SYNTHESIS OF NEBRAMINE, TOBRAMYCIN AND 4"-EPI-TOBRAMYCIN Masato Tanabe,* Dennis M. Yasuda and George Stanford Research Institute 333 Ravenswood Avenue Menlo Park, California 94025
Detre
(Received in USA 28 June 1977; received in UK for publication 30 Au@&
In a study aimed at the partial synthesis of aminoglycoside improved
spectrum
of activity,
that can be converted
to a variety
study we have synthesized naturally
occurring
Our approach
we have devised
of semi-synthetic
tobramycin
aminoglycoside
practical
naturally
occurring
efficient
conversion
of neamine
(3'-deoxyneamine).
Nebramine
with an appropriate
sugar.
key intermediates
As an example Tobramycin
4" epimer.
an
of this is a
applications.2
neamine which
is easily obtained
from
In our study, two new methods have been developed for the
to the important
is converted
Hitherto,
showing
of several
aminoglycosides.
with useful clinical
aminoglycosides.
syntheses
as well as its unnatural
starts with the pseudodisaccharide
antibiotics'
1977)
key intermediate
to tobramycin
nebramine
pseudodisaccharide
and its analogs
has only been available
nebramine3
by Ga-glycosylation by selective
hydrolysis
of tobramycin.
In the first method, tetracarbobenzyloxyneamine4 trichloroethoxycarbonyl silica gel afforded
chloride
(5 equiv.)
in pyridine
55% of the 3'-trichloroethyl
and
4' hydroxyl
of the monoester
groups
depending
-1 with 2,2_dimethoxypropane
1, m.p.
for selective
upon the reagent
esterified
at -5' for 20 hr.
carbonate
This step is the key to this route since it allows 5,6
was selectively
used.
Chromatography
165-168';
reactions
For instance,
at 3' with on
a], 33' (CHCls).
at the remaining subsequent
treatment
in DMF with pTSA at 130' gave the 5,6 isopropylidene
3607
3608
No. 41
Xa
n
No. 41
3609
intermediate
2 (95%) from which the trichloroethyl
with ammonia
in methanol
fication method method,4
to afford the isopropylidene
thus affords
that resulted
carbonate
an improved
in a difficultly
function was selectively
derivative
route to 3, previously separable
This selective
2.
prepared
removed
3' esteri:
by an alternative
mixture of 5,6 and 3',4' monoisopropylidene
derivatives. Transformation
of 2 to a nebramine
Umezawa for the conversion tosyl chloride derivative genolysis
of kanamycin
in pyridine yielded
5 (65%), m.p. 96-lOO'C, of 5 with Raney nickel
Acetylation
which was required
for selective
3'-tosylate
derivative,
synthesis
of deoxy sugar.6
the nebramine
followed
derivative
the 3'-deoxy
6n-glycosylation
derivative
nebramine
derivative
S, m.p. 177-180°,
to give tobramycin
procedure
derivative
and its analogs.
of neamine to a
by Barton and McCombie
generated
hydride proceeded
which on hydrolysis
(45%) of
of nebramine.
nearnine -15 was treated with NaH
Treatment
in methylene
sulfide-triethylamine
for the
gave a higher overall yield
-16.
acetic
of -16 with the imidoyl
chloride
and THF, followed
the 3'-thionobenzoate
smoothly
in refluxing
-17.
by -in Reduction
toluene affording
with 80% acetic acid gave the desired
nebramine
19 _*
To complete
the synthesis
we took advantage
of tobramycin
of the well established
and its congeners
use of pyranosyl
from the pseudodisaccharide
halide derivatives
group at C-2 such as a benzyl ether to insure stereoselective
Thus 8 was condensed sulfate
with the pyranosyl
in dioxane and toluene
initially with ammonia of the N-carbobenzoxy hydroxide
6_, m.p. 185-190’.
with aqueous
reactions
derivative
Hydro-
hydrolysis
of tetracarbobenzyloxy
carbamate
with tributyltin E,
of zwith
, which was converted to the iodo
19, thus being the method of choice for the preparation
with hydrogen
derivative
3' tosylation
by
Acetonide
of a 3'-thionobenzoate
of N,N-dimethylbenzamide
of the thionobenzoate
route described
the 3'-deoxy derivative
the general method developed
in OMF to give the 4',6'-cyclic
situ treatment
Selective
4, m.p. 99-103'
blocked 4'-0-acetyl
This deoxygenation
The known 5,6-cyclohexylidene
chloride methochloride
an analogous
with sodium iodide in dry OMF at 95-100' for 20 hr.
the deoxygenation
nebramine
calcium
6 to tobramycin. 5
in dioxane afforded
selectively
A second method,
cipating
followed
of 5 gave the 4' acetate 7, m.p. 90-95'.
acid gave the desired
derivative
derivative
fractions
in methanol
The resulting
formation
and benzyl blocking
followed
cyanide and
by reductive
groups with sodium and liquid ammonia.
chromatography
of a-an0mers.s
mixture was sequentially
to remove the ester function,
from ion exchange
with a nonparti-
chloride zq in the presence of mercuric (1:2).
8,
deblocked, removal
The ammonium
on Biorex 70-H+ were deacetylated
by brief
3610
I!o. 41
treatment
with boiling sodium hydroxide
chiefly of tobramycin,
although minor amounts of the 68 and C-5 isomer were also detected.lO
Silica gel chromatography properties
afforded
tobramycin
as well as antibacterial
Similar
treatment
of tobramycin
to afford a mixture, that consisted
in 1:1-dioxane-water
-13 identical with a natural
sample in physical
activity.
of 8 with the galactopyranosyl
halide -10"
ultimately
gave the 4"-epimer
14, a]D 78' (HzO).
Other analogs glycosylation12
(e.g. the 3-amino xylo derivative)
of the nebramine
It is of interest
derivative
of tobramycin
were prepared
by C-6
19 _*
to note that 4"-epi-tobramycin
exhibits
a similar antibacterial
spectrum.
and potency to that of tobramycin. REFERENCES
1.
M. Kugelman,
A. K. Mallams,
H. F. Vernay,
AND NOTES
D. F. Crowe, G. Detre, M. Tanabe,
and D. M. Yasuda.
J. Chem. Sot. fPerkin I), 1097-1118 (1976). 2.
G. Jaffe, W. Ravreby, 6. R. Meyers, and S. Z. Hirschman. 75-81 (1974).
3.
D. F. Koch and J. A. Rhoades.
4.
Antimicr.
Ag. Chemother.
5,
Antimicr. Ag. Chemother.-1970,309-313 (1971).
S. Umezawa, S. Koto, K. Tatsuta,
H. Hineno,
Y. Nishimura,
and T. Tsumura.
BUZZ. &em.
Sot.
Japan 42, 537-541 (1969). T. Miyake,
T. Tsuchiya,
and S. Umezawa.
J. Antibiotics 26, 403-406
5.
Y. Takagi,
6.
D.H.R. Barton and S. W. McCombie.
7.
T. Jikihara, T. Tsuchiya, S. Umezawa, and H. Umezawa. 3507-3510 (1973); J. Antibiotics 24_,711-712 (1971).
8.
G. Wulff and G. Rohle.
9.
S. Koto, T. Tsumura, Y. Kato, and S. Umezawa.
J. &em. SOC. Perkin
II,
(1973).
1574-1585 (1975).
BUZZ. Chem. Sot. Japan 46,
Angew Chem. Intern&. Edit 13(3),
157-216 (1974).
BUZZ. Chem.
SOC.
Japan 41, 2765-2769
(1968).
10.
We have observed with neamine and gentamine derivatives that when both the C-5 and C-6 hydroxyl groups are available for glycosysation reaction occurs predominantly at C-6.
11.
U.S. Patent 3,985,727 (Oct. 12, 1976), P.J.L. Daniels (to Schering-Plough CO.). We thank Dr. P.J.L. Daniels and Mr. C. E. Lute for providing us with this galactopyranoside intermediate,.
12.
Unpublished
results.
Acknowledgements
We thank the Schering
Corporation,
Bloomfield,
New Jersey,
for their support of this work.
We also thank Drs. P.J.L. Daniels and A. K. Mallams of the Schering helpful discussions.
Corporation
for many