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Oxidation of oxyphenbutazone by sheep vesicular gland microsomes and lipoxygenase
VoI. 63, No. 3, 1975
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
OXIDATION SHEEP V E S I C U L A R
Philip
S. P o r t o g h e s e ,
Department
GLAND MICROSOMES
Kerstin
January
and Bengt
Karolinska
01 S t o c k h o l m
60,
BY
AND L I P O X Y G E N A S E
Svanborg,
of Chemistry,
S-I04 Received
OF O X Y P H E N B U T A Z O N E
Samuelsson
Institutet
Sweden
30,1975
SUMMARY O x y p h e n b u t a z o n e was o x i d i z e d w h e n i n c u b a t e d w i t h a c e t o n e powder p r e p a r e d from sheep v e s i c u l a r g l a n d m i c r o s o m e s or w i t h l i p o x y g e n a s e at pH 4 or 5. O x i d a t i o n also o c c u r r e d at pH 8 or 9, if a r a c h i d o n a t e or l i n o l e a t e was a d d e d to either of the incub a t i o n m i x t u r e s . The o x y g e n a t e d p r o d u c t was found to be i d e n t i c a l w i t h 4 - h y d r o x y o x y p h e n b u t a z o n e , w h i c h was s y n t h e s i z e d and a n a l y z e d by gas l i q u i d c h r o m a t o g r a p h y and mass s p e c t r o m e t r y . The o x y g e n a t e d c o m p o u n d was not an i n h i b i t o r of p r o s t a g l a n d i n b i o s y n t h e s i s .
INTRODUCTION gated
Although
extensively
turated
prostaglandin
concerning
fatty acids
(i),
its a b i l i t y
there
of other c l a s s e s
of p r o s t a g l a n d i n
synthetase.
involving agent.
oxyphenbutazone
Since
there
m o d e of a c t i o n hibition gated
of n o n - s t e r o i d a l
the c o n s t i t u t i o n
against prostaglandin glands.
In addition,
prostaglandin to d e t e r m i n e
synthetase
whether
and
derived
Copyright©19~ ~ AcademicPress,~ AH~gh~ ~ r e p r o ~ c ~ n m a ~ r m r e s e ~ e d .
748
the
agents with
in-
investiit
f r o m sheep v e s i c u l a r features
s h a r e d by
(6) have p r o m p t e d
enzyme c a t a l y z e s
tion of o x y p h e n b u t a z o n e .
linking
p r o d u c t and tested
lipoxygenase
the latter
such e x a m p l e
(4, 5), we h a v e
the c o m m o n m e c h a n i s t i c
synthetase
the a c t i o n
used a n t i i n f l a m m a t o r y
antiinflammatory
of the o x i d a t i o n
unsa-
(2) p e r t a i n i n g
body of e v i d e n c e
biosynthesis
investi-
various
during
to r e p o r t one
a clinically
is a s u b s t a n t i a l
of p r o s t a g l a n d i n
to o x y g e n a t e
of c o m p o u n d s
we w i s h (3),
has b e e n
is o n l y one r e p o r t
to the o x i d a t i o n
In this c o m m u n i c a t i o n
synthetase
a similar
us oxida-
Vol. 63, No. 3, 1975
MATERIALS
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
AND METHODS
Materials:
~,5-14C~-Oxyphenbutazone
Ciba-Geigy,
Basel,
Switzerland.
diluted with unlabeled M~indal,
Sweden)
Arachidonic
to a specific
acid was p r e p a r e d
to a s p e c i f i c
obtained
somes:
Frozen
grinder
glands
and 1 0 - 3 M was
powder
blended
directly
for one m i n u t e
in a P o t t e r - E l v e h j e m
carried
o u t at 4°C.
The cell debris,
centrifuged microsomes buffer was
for
further were
1,000 ml c o l d stirring. mixture
a B~chner portions washing
Minn.,
to -23°C.
at i0,000 g for
g. The
USA.
gland micro-
continued
until
to a w a t e r
1,000 ml d i e t h y l
(-20°C) ether
749
containing
and homowere
were removed supernatant The
The s u s p e n s i o n dropwise
into
strong m a g n e t i c of the through
p u m p and w a s h e d w i t h
at -20°C,
was
50 ml of s u c r o s e
then f i l t e r e d
butanol.
by
sedimented
the t e m p e r a t u r e
The s u s p e n s i o n was
of cold
a meat-
mlxer
and a d d e d
constant,
lipoxy-
. The s u s p e n s i o n
and h o m o g e n i z e d .
with
was
, 0.05 M Tris,
75 m i n u t e s .
funnel
Minn.,
All o p e r a t i o n s
w i t h an a d d i t i o n a l
acetone,
connected
form
mitochondria
into a s e p a r a t o r y
(50 ml each) with
and
homogenizer
(-40°C)
funnel
(reduced
and
and s o y b e a n
into 500 ml of b u f f e r
homogenizer.
at i00,000
S t i r r i n g was
rose
aspirin
2 N HCl to pH 7.4
12 m i n u t e s
transferred
into a glass
transferred
nuclei
(7
Indomethacin
in an U l t r a - T u r r a x
genized
1-14CI -
Austin,
from sheep v e s i c u l a r
(adjusted w i t h
centrifugation
by S t o f f e l
St. Louis,
10-4M g l u t a t h i o n e
EDTA
of 0.03 Ci/mol.
(about 150 g) w e r e m i n c e d w i t h
and t r a n s f e r r e d
0.25 M sucrose,
AB,
0.36 Ci/mol.
f r o m Sigma,
of a c e t o n e
(H~ssle-Ciba-Geigy
Institute,
Sharp and Dohme;
g e n a s e was p u r c h a s e d
was
as d e s c r i b e d
of
by
material
activity
(Hormel
activity
from Merck,
Preparation
acid
provided
The r a d i o l a b e l e d
oxyphenbutazone
diluted with unlabeled USA)
was k i n d l y
After
3
exhaustive
the p o w d e r w a s
Vol. 63, No. 3, 1975
collected, hour
and
dried
trode
in a 1 ml
acetone
powder,
a sufficient tion of
3 minutes
or
terminated
CH3OH
termination
Extraction tained
buffer
were
scraped
was
run
a final
was
of
added
concentra(20 ~g
added
after
oxyphenbutazone
labeled
The
incuba-
acetate.
arachidonate.
above
by a d d i n g
but
in the
7 ml of CHCl 3-
D~nnschicht
liquid
buffered (8:2,
and
phase
in b e n z e n e - d i o x a n e - a c e t i c arachidonate
v/v).
and c o u n t e d
adding was
was
con-
was
6 with McIlvaine After
detection
in a P a c k a r d
to s i l i c a
zones
Tri-carb
If l a b e l e d
continued
(80:20:2,
from products. 750
material
arachi-
by r e m o v i n g
3 ml CHCI 3 a n d
applied
acid
incubation
the r a d i o a c t i v e
spectrometer.
the e x t r a c t i o n
protein
to pH
II scanner,
scintillation
utilized,
If the
the e x t r a c t e d
in C H C I 3 - H O A c
The c h l o r o f o r m
uncoverted
or
or 4 - h y d r o x y o x y p h e n b u t a z o n e
Chromatography:
f r o m the p l a t e s
the p r e c i p i t a t e d HCOOH.
t h e r e was
i0 ml of e t h y l
as d e s c r i b e d
accomplished
gel p l a t e s
(8) a n d r u n
3375
was
elec-
otherwise)
3 minutes.
out with
oxyphenbutazone
oxyphenbutazone,
to s i l i c a
a Berthold
donate
performed
and T h i n L a y e r
with
model
carried
con-
oxygen
substrate
radioactive
with
were
v/v).
labeled
applied
were
to m a k e
for an a d d i t i o n a l
also
of u n l a b e l e d
(i:i,
to 1
of 0.i M T r i s - H C l
respectively)
by e x t r a c t i n g
were
a Clark
unlabeled
containing
continued
incubations
the
1/2
lipoxygenase,
experiments,
i00 ]~g l i n o l e a t e ,
Experiments
and
for
(when not s p e c i f i e d
of o x y p h e n b u t a z o n e
In some
of
4 mg
with
to 1 ml
20 ~g of s o y b e a n
to the m i x t u r e
t i o n was
presence
as f o l l o w s :
quantity
incubation
These
(37 ° ) f i t t e d
containing
10-3M.
arachidonate
vacuum
of I 3 , 5 - 1 4 C l - o x y p h e n b u t a z o n e
chamber
and accomplished buffer
under
at -20°C.
Incubations
acetate
and
in a d e s s i c c a t o r
stored
Incubations: ducted
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
2 ml
1%
gel p l a t e s
V/v/v)
and
to s e p a r a t e
Vol. 63, No. 3, 1975
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Synthesis
of
zone
(0.342
-H20
4-Hydroxyoxyphenbutazone:
and C H 3 0 H ( 3 . 5 After
g,
ml)
1 mmole), 30% H202
was
that p e r i o d
allowed
and
acetate
phase was
removed
in vacuo w i t h o u t elution
ting w i t h
99:1
acetate.
with
ethyl
separated,
column
eluted
to 98:2.
: 0.47 on silica elemental
a solvent
point was
(SilicAR
177.5-179.5°C
The ethyl
CC-4,
agreed
with
calculated
C,
67.1;
H,
was
taken
using
values:
the formula 5.9;
was m a i n t a i n e d
34 g)
to star-
The product
in c o m p o s i t i o n from ethyl
and it had an Rf
run in C H C I 3 - H O A c
N, 8.3; w h i c h well
energy
5% HCI
subjected
was r e c r y s t a l l i z e d
following
electron
was
which varied
showed
spectrum
into
with CHCI3-HOAc(96:4).
analysis
Mass
13 hours.
(2x20 ml).
The r e s i d u e
chromatography
gel plates,
values:
(0.i ml)
dried over Na3CO 3, and the solvent
The m a t e r i a l
Its m e l t i n g
1 N NaOH
was p o u r e d
acetate,
heating.
using
of o x y p h e n b u t a -
at 22°C for
mixture
CHCL 3 and t e r m i n a t i n g
(94 mg) was from
extracted
(0.7 ml),
to stand
the r e a c t i o n
(20 ml)
gradient
A mixture
C,
(8:2,v/v). 66.8;
The
H, 5.9;
CI9H20N204
and its
N, 8.3.
a LKB
9000
at 70 eV and
instrument, the trap
the
current
was
60 ~A. The 55(11);
spectrum 57(94);
107(25);
m/e
65(15);
119(31);
ed a m o l e c u l a K
(% intensity): 77(40);
120(36);
ion at m / e
79(19);
135(72);
ion from o x y p h e n b u t a z o n e
the butyl
group
rings w e r e This
identical
indicates
attached
at m / e
(9).
119,
to the butyl
group
92(21);
199 w i t h
93(55);
340(6)
higher
Ions at m / e
135,
than
showthe
57 c o n t a i n i n g the a r o m a t i c
from o x y p h e n b u t a z o n e .
introduced
or located
52(32);
205(48);
is 16 units
to those o b t a i n e d
that the newly
51(18);
85(100);
199(16);
340, w h i c h
molecular
and ions
41(30);
OH group c a n n o t
in either
be
of the aromatic
rings. The
synthesized
compound
was
also
751
converted
into
the trimethyl-
Vol. 63, No. 3, 1975
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
100
4,84
0 ,d"~,/Osi (CH3)3 (CH3)3Si O ~ J , ~ j
80-
HgC4"
73
60-
271
403
-
2o-
&28
207
.J.1,..<
..... J
50
100
200
150
'
250
•
i
300
.
.
.
.
i
350
.
.
.
.
i
.
400
.
.
.
i
~50
.
.
500
rnle
Fig.
silyl
i.
The mass s p e c t r u m of 4 - h y d r o x y o x y p h e n b u t a z o n e t r i m e t h y l s i l y l ether.
ether
and a n a l y z e d
a gas c h r o m a t o g r a p h
by the mass
spectrometer
equipped with a 1%
SE-30
tion time of the c o m p o u n d was
converted
using methyl
fatty acids
mass
esters
spectrum
(Fig.
of normal
i) was o b t a i n e d
at 22.5 eV and the trap c u r r e n t at m / e
484, w h i c h
presence
60 pA.
units
aromatic
rings w e r e
that the i n t r o d u c e d
the free r a d i c a l
both carbonyl
of
tion M i x t u r e s :
After
was
[3,5-14C3
scraped
A n a l i q u o t was analyzed
the e l e c t r o n
23.6
(i0). The energy
then 340,
due
compared
The f r a g m e n t a t i o n
susceptible
to the
of ions
upward,
is l o c a t e d
ion
pattern
in the
4 posi-
site for o x i d a t i o n
w o u l d be s t a b i l i z e d
by
groups.
Identification
Rf=0.47
the C-value,
72 units
OH g r o u p s
intermediate
The r e t e n -
It had a m o l e c u l a r
shifted
This w o u l d be a p a r t i c u l a r l y
because
column.
as s t a n d a r d s
higher
the s p e c t r u m of o x y p h e n b u t a z o n e .
indicates tion.
with
combined with
of two t r i m e t h y l s i l y l groups. The m / e v a l u e s
containing with
is 2x72=144
into
as
4-Hydroxyoxyphenbutazone
separation
on TLC,
from the p l a t e
converted
into
by gas c h r o m a t o g r a p h y
the r a d i o a c t i v e
and e l u t e d w i t h
the t r i m e t h y l s i l y l u s i n g a Barber
752
in Incubazone at
ethyl
ether
acetate.
and
Colman model
Vol. 63, No. 3, 1975
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
5000 i n s t r u m e n t radioactivity.
with
The m a s s
the t r i m e t h y l s i l y l
RESULTS
AND
derivative
within
five minutes.
above.
In the a b s e n c e
no o x y g e n
uptake.
c a n t l y by a s p i r i n of e f f e c t i n g Because acetone
responsible
as to w h i c h for o x y g e n
soybean
It was
found
of o x y g e n
experiments
to air o x i d a t i o n be i n h i b i t e d
lipoxygenase component
found that
application
incubation
with
~,5-14C~-oxyphenbutazone
whose Rf=0.47 unbuffered
is i d e n t i c a l
silica
at pH 6 u n d e r 3% c o n v e r s i o n .
gel G.
otherwise
agents
whether
similar
experi-
it bears in p r o s t a -
u p t a k e was
oxygen
During
were
the c o u r s e
of
to TLC plates,
but this could
powder
to pH 6. A f t e r at pH 5, 15 %
to a s i n g l e product, by air o x i d a t i o n
on
of[3,5-14C]-oxyphenbutazone
conditions
therefore
753
to a
is s u c c e p t i b l e
converted
Incubation
consump-
or m e r e l y
experiments
to that p r o d u c e d
These results
in the
this c o m p o u n d
the a c e t o n e
identical
capable
5.
enzyme
gel G b u f f e r e d
was
signifi-
since
of o x y p h e n b u t a z o n e
silica
there was
at pH 9 this did not occur.
to d e t e r m i n e
by u t i l i z i n g
three m i n u t e s of
after
these
uptake,
u p t a k e by the enzyme,
it was
enzyme
component
carried out with~3,5-14C~-oxyphenbutazone. these
at pH 6 or
that at pH 5 o x y g e n
while
to o x i d a t i o n
in the c h a m b e r
not i n h i b i t e d
nor w e r e
at
sheep v e s i c u l a r
occurred
(5) to the d i o x y g e n a s e
it was of i n t e r e s t
triggering
from
on their o w n at pH 4 or
c a r r i e d out w i t h
tion was r e l a t e d
incubated
consumption
U p t a k e was
of the u n c e r t a i n t y
synthetase.
was
or w i t h b o i l e d
for
compound.
oxygen
of e n z y m e
i n d u c e d by o x y p h e n b u t a z o n e , As
prepared
and
as d e s c r i b e d
(185nmoles)of
No o x y g e n
oxygen uptake
a resemblance glandin
uptake
or i n d o m e t h a c i n ,
p o w d e r was
ments were
powder
The o x y g e n
of m a s s
of the s y n t h e s i z e d
When oxyphenbutazone
25 mg a c e t o n e
there was full
registration
s p e c t r u m was o b t a i n e d
DISCUSSION:
pH 4 or 5 w i t h glands,
simultaneous
resulted
indicate
only
that o x y g e n
in a up-
Vol. 63, No. 3, 1975
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
take at pH 5 is r e l a t e d zone.
Similarly,
at pH 5 w h e n
the same o x i d a t i o n
the drug was
Of p a r t i c u l a r conversion
(15%)
tion p r o d u c t powder
of
oxidation
was
mixture.
of this type c o u l d
pared
metry which
showed
oxyphenbutazone oxygen
subjected
of the a c e t o n e
it is p o s s i b l e in vivo as well,
and p r o p e r t i e s
that it was
of the
and the s y n t h e t i c a l l y
into t r i m e t h y l s i l y l
C-values
and mass
with acetone
and this fact also
is r e s i s t e n t
Oxyphenhutazone
b o t h the o x i d a t i o n
to gas c h r o m a t o g r a p h y -
identical
incubated
uptake
the m o l e c u l e
acetone
to the same oxida-
by c o n v e r t i n g
mixtures
4-hydroxyoxyphenbutazone
(ii,
substantial
or l i n o l e a t e , r e s p e c t i v e l y ,
Since
the s t r u c t u r e
from the i n c u b a t i o n
were
sis
that
product.
derivatives
mote
lipoxygenase.
take p l a c e
Its i d e n t i t y was d e t e r m i n e d products
(13%) was p r o d u c e d
the finding
when arachidonate
to i n v e s t i g a t e
of o x y p h e n b u t a -
at pH 8 in the p r e s e n c e
to the i n c u b a t i o n
of i n t e r e s t
product
[3,5-14C]-oxyphenbutazone
also o c c u r r e d
co-oxidation
oxidation
incubated with
significance
or l i p o x y g e n a s e
were added
to e n z y m a t i c
12).
When arachidonate
powder
in the p r e s e n c e
was
under
mass
The
spectro-
spectra.
4-Hydroxy-
at pH 5 did not pro-
suggests
to o x i d a t i o n
is an i n h i b i t o r
powder
ethers.
pre-
that the rest of
these
conditions.
of p r o s t a g l a n d i n incubated
biosynthe-
at pH 8 w i t h
of o x y p h e n b u t a z o n e ,
the
there was an i n -
(CH2)3 CH3
R=H, Oxyphenbutazone R= OH, 4 - Hyd roxyoxyphenbutazone R=OOH, 4-Hydroperoxyoxyphenbutazone Fig.
2.
The s t r u c t u r e derivatives.
of o x y p h e n b u t a z o n e
754
and its o x y g e n a t e d
Vol. 63, No. 3, 1975
hibition
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the o x y g e n
uptake.
by 4 - h y d r o x y o x y p h e n b u t a z o n e ,
When oxyphenbutazone
the o x y g e n
transformation
of
also
by o x y p h e n b u t a z o n e
inhibited
butazone. future
The o x y g e n a t i o n s
work
tase and
a Gustavus
Council
2. Marnett, Biochem.
A.
powder
was
of action
of p r o s t a g l a n d i n
for
synthe-
(P.S.P.)
Pfeiffer
Memorial
by a grant
wishes
to thank
Education
Research
for support
Fellowship.
from the S w e d i s h
Medical
(03X-217).
B.
(1972)
Fed.
Proc.
31,
1442-1450.
L.J., Wlodawer, P., and Samuelsson, B. Biophys. Res. Commun. 6_O0, 1286-1294.
(1974)
"The P h a r m a c o l o g i c a l Basis of T h e r a p e u t i c s " , fourth ed., Goodman, L.S., and Gilman, A., editors. The M a c m i l l a n Co., N.Y., 1970, p. 337.
4. Ferreira, S.H., i_44, 57-73. 5. Flower,
R.J.
7. Stoffel,
W.
and Vane,
(1974)
6. Hamberg, M., 5329-5335.
9. Unterhalt,
J.R.
and Samuelsson,
(1964)
B.
Am.
(1972)
A.,
Arch.
Ku,
Rev. B.
Chem.
Bergstr6m, S., Ryhage, R., (1963) J. Biol. Chem. 238,
Ii. Lands, (1972)
and Wasvary,
J.M.
Ann.
26,
(1967)
673,
Pharmaz.
Rome,
755
Pharmacol.
33-67. J. Biol.
F
305,
Samuelsson, 3555-3564.
(1973)
Rev.
Chem.
242,
26-36.
and Matui,
W.E., LeTellier, P.R., Fed. Proc. 3!l, 476 A.
E.C.,
(1974)
Pharmacol.
8. Awang, D.V.C., Vincent, Sci. 62, 1673-1676.
12.
The
to be of i m p o r t a n c e
for P h a r m a c e u t i c a l
supported
i. Samuelsson,
i0,
by the a c e t o n e
seem
One of the authors
Foundation
This w o r k was
3.
enhanced.
its inhibitiors.
the A m e r i c a n
Research
was
but not by 4 - h y d r o x y o x y p h e n -
observed
on the m e c h a n i s m s
ACKNOWLEDGEMENT:
through
[l-14C]-arachidonate
uptake
was r e p l a c e d
J. Pharm.
334-337.
B.,
L.H.
Fed.
(1973)
and
Sj~vall,
and V a n d e r h o c k ,
Proc.
32,
3302.
J.
J.
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
OXIDATION SHEEP V E S I C U L A R
Philip
S. P o r t o g h e s e ,
Department
GLAND MICROSOMES
Kerstin
January
and Bengt
Karolinska
01 S t o c k h o l m
60,
BY
AND L I P O X Y G E N A S E
Svanborg,
of Chemistry,
S-I04 Received
OF O X Y P H E N B U T A Z O N E
Samuelsson
Institutet
Sweden
30,1975
SUMMARY O x y p h e n b u t a z o n e was o x i d i z e d w h e n i n c u b a t e d w i t h a c e t o n e powder p r e p a r e d from sheep v e s i c u l a r g l a n d m i c r o s o m e s or w i t h l i p o x y g e n a s e at pH 4 or 5. O x i d a t i o n also o c c u r r e d at pH 8 or 9, if a r a c h i d o n a t e or l i n o l e a t e was a d d e d to either of the incub a t i o n m i x t u r e s . The o x y g e n a t e d p r o d u c t was found to be i d e n t i c a l w i t h 4 - h y d r o x y o x y p h e n b u t a z o n e , w h i c h was s y n t h e s i z e d and a n a l y z e d by gas l i q u i d c h r o m a t o g r a p h y and mass s p e c t r o m e t r y . The o x y g e n a t e d c o m p o u n d was not an i n h i b i t o r of p r o s t a g l a n d i n b i o s y n t h e s i s .
INTRODUCTION gated
Although
extensively
turated
prostaglandin
concerning
fatty acids
(i),
its a b i l i t y
there
of other c l a s s e s
of p r o s t a g l a n d i n
synthetase.
involving agent.
oxyphenbutazone
Since
there
m o d e of a c t i o n hibition gated
of n o n - s t e r o i d a l
the c o n s t i t u t i o n
against prostaglandin glands.
In addition,
prostaglandin to d e t e r m i n e
synthetase
whether
and
derived
Copyright©19~ ~ AcademicPress,~ AH~gh~ ~ r e p r o ~ c ~ n m a ~ r m r e s e ~ e d .
748
the
agents with
in-
investiit
f r o m sheep v e s i c u l a r features
s h a r e d by
(6) have p r o m p t e d
enzyme c a t a l y z e s
tion of o x y p h e n b u t a z o n e .
linking
p r o d u c t and tested
lipoxygenase
the latter
such e x a m p l e
(4, 5), we h a v e
the c o m m o n m e c h a n i s t i c
synthetase
the a c t i o n
used a n t i i n f l a m m a t o r y
antiinflammatory
of the o x i d a t i o n
unsa-
(2) p e r t a i n i n g
body of e v i d e n c e
biosynthesis
investi-
various
during
to r e p o r t one
a clinically
is a s u b s t a n t i a l
of p r o s t a g l a n d i n
to o x y g e n a t e
of c o m p o u n d s
we w i s h (3),
has b e e n
is o n l y one r e p o r t
to the o x i d a t i o n
In this c o m m u n i c a t i o n
synthetase
a similar
us oxida-
Vol. 63, No. 3, 1975
MATERIALS
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
AND METHODS
Materials:
~,5-14C~-Oxyphenbutazone
Ciba-Geigy,
Basel,
Switzerland.
diluted with unlabeled M~indal,
Sweden)
Arachidonic
to a specific
acid was p r e p a r e d
to a s p e c i f i c
obtained
somes:
Frozen
grinder
glands
and 1 0 - 3 M was
powder
blended
directly
for one m i n u t e
in a P o t t e r - E l v e h j e m
carried
o u t at 4°C.
The cell debris,
centrifuged microsomes buffer was
for
further were
1,000 ml c o l d stirring. mixture
a B~chner portions washing
Minn.,
to -23°C.
at i0,000 g for
g. The
USA.
gland micro-
continued
until
to a w a t e r
1,000 ml d i e t h y l
(-20°C) ether
749
containing
and homowere
were removed supernatant The
The s u s p e n s i o n dropwise
into
strong m a g n e t i c of the through
p u m p and w a s h e d w i t h
at -20°C,
was
50 ml of s u c r o s e
then f i l t e r e d
butanol.
by
sedimented
the t e m p e r a t u r e
The s u s p e n s i o n was
of cold
a meat-
mlxer
and a d d e d
constant,
lipoxy-
. The s u s p e n s i o n
and h o m o g e n i z e d .
with
was
, 0.05 M Tris,
75 m i n u t e s .
funnel
Minn.,
All o p e r a t i o n s
w i t h an a d d i t i o n a l
acetone,
connected
form
mitochondria
into a s e p a r a t o r y
(50 ml each) with
and
homogenizer
(-40°C)
funnel
(reduced
and
and s o y b e a n
into 500 ml of b u f f e r
homogenizer.
at i00,000
S t i r r i n g was
rose
aspirin
2 N HCl to pH 7.4
12 m i n u t e s
transferred
into a glass
transferred
nuclei
(7
Indomethacin
in an U l t r a - T u r r a x
genized
1-14CI -
Austin,
from sheep v e s i c u l a r
(adjusted w i t h
centrifugation
by S t o f f e l
St. Louis,
10-4M g l u t a t h i o n e
EDTA
of 0.03 Ci/mol.
(about 150 g) w e r e m i n c e d w i t h
and t r a n s f e r r e d
0.25 M sucrose,
AB,
0.36 Ci/mol.
f r o m Sigma,
of a c e t o n e
(H~ssle-Ciba-Geigy
Institute,
Sharp and Dohme;
g e n a s e was p u r c h a s e d
was
as d e s c r i b e d
of
by
material
activity
(Hormel
activity
from Merck,
Preparation
acid
provided
The r a d i o l a b e l e d
oxyphenbutazone
diluted with unlabeled USA)
was k i n d l y
After
3
exhaustive
the p o w d e r w a s
Vol. 63, No. 3, 1975
collected, hour
and
dried
trode
in a 1 ml
acetone
powder,
a sufficient tion of
3 minutes
or
terminated
CH3OH
termination
Extraction tained
buffer
were
scraped
was
run
a final
was
of
added
concentra(20 ~g
added
after
oxyphenbutazone
labeled
The
incuba-
acetate.
arachidonate.
above
by a d d i n g
but
in the
7 ml of CHCl 3-
D~nnschicht
liquid
buffered (8:2,
and
phase
in b e n z e n e - d i o x a n e - a c e t i c arachidonate
v/v).
and c o u n t e d
adding was
was
con-
was
6 with McIlvaine After
detection
in a P a c k a r d
to s i l i c a
zones
Tri-carb
If l a b e l e d
continued
(80:20:2,
from products. 750
material
arachi-
by r e m o v i n g
3 ml CHCI 3 a n d
applied
acid
incubation
the r a d i o a c t i v e
spectrometer.
the e x t r a c t i o n
protein
to pH
II scanner,
scintillation
utilized,
If the
the e x t r a c t e d
in C H C I 3 - H O A c
The c h l o r o f o r m
uncoverted
or
or 4 - h y d r o x y o x y p h e n b u t a z o n e
Chromatography:
f r o m the p l a t e s
the p r e c i p i t a t e d HCOOH.
t h e r e was
i0 ml of e t h y l
as d e s c r i b e d
accomplished
gel p l a t e s
(8) a n d r u n
3375
was
elec-
otherwise)
3 minutes.
out with
oxyphenbutazone
oxyphenbutazone,
to s i l i c a
a Berthold
donate
performed
and T h i n L a y e r
with
model
carried
con-
oxygen
substrate
radioactive
with
were
v/v).
labeled
applied
were
to m a k e
for an a d d i t i o n a l
also
of u n l a b e l e d
(i:i,
to 1
of 0.i M T r i s - H C l
respectively)
by e x t r a c t i n g
were
a Clark
unlabeled
containing
continued
incubations
the
1/2
lipoxygenase,
experiments,
i00 ]~g l i n o l e a t e ,
Experiments
and
for
(when not s p e c i f i e d
of o x y p h e n b u t a z o n e
In some
of
4 mg
with
to 1 ml
20 ~g of s o y b e a n
to the m i x t u r e
t i o n was
presence
as f o l l o w s :
quantity
incubation
These
(37 ° ) f i t t e d
containing
10-3M.
arachidonate
vacuum
of I 3 , 5 - 1 4 C l - o x y p h e n b u t a z o n e
chamber
and accomplished buffer
under
at -20°C.
Incubations
acetate
and
in a d e s s i c c a t o r
stored
Incubations: ducted
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
2 ml
1%
gel p l a t e s
V/v/v)
and
to s e p a r a t e
Vol. 63, No. 3, 1975
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
Synthesis
of
zone
(0.342
-H20
4-Hydroxyoxyphenbutazone:
and C H 3 0 H ( 3 . 5 After
g,
ml)
1 mmole), 30% H202
was
that p e r i o d
allowed
and
acetate
phase was
removed
in vacuo w i t h o u t elution
ting w i t h
99:1
acetate.
with
ethyl
separated,
column
eluted
to 98:2.
: 0.47 on silica elemental
a solvent
point was
(SilicAR
177.5-179.5°C
The ethyl
CC-4,
agreed
with
calculated
C,
67.1;
H,
was
taken
using
values:
the formula 5.9;
was m a i n t a i n e d
34 g)
to star-
The product
in c o m p o s i t i o n from ethyl
and it had an Rf
run in C H C I 3 - H O A c
N, 8.3; w h i c h well
energy
5% HCI
subjected
was r e c r y s t a l l i z e d
following
electron
was
which varied
showed
spectrum
into
with CHCI3-HOAc(96:4).
analysis
Mass
13 hours.
(2x20 ml).
The r e s i d u e
chromatography
gel plates,
values:
(0.i ml)
dried over Na3CO 3, and the solvent
The m a t e r i a l
Its m e l t i n g
1 N NaOH
was p o u r e d
acetate,
heating.
using
of o x y p h e n b u t a -
at 22°C for
mixture
CHCL 3 and t e r m i n a t i n g
(94 mg) was from
extracted
(0.7 ml),
to stand
the r e a c t i o n
(20 ml)
gradient
A mixture
C,
(8:2,v/v). 66.8;
The
H, 5.9;
CI9H20N204
and its
N, 8.3.
a LKB
9000
at 70 eV and
instrument, the trap
the
current
was
60 ~A. The 55(11);
spectrum 57(94);
107(25);
m/e
65(15);
119(31);
ed a m o l e c u l a K
(% intensity): 77(40);
120(36);
ion at m / e
79(19);
135(72);
ion from o x y p h e n b u t a z o n e
the butyl
group
rings w e r e This
identical
indicates
attached
at m / e
(9).
119,
to the butyl
group
92(21);
199 w i t h
93(55);
340(6)
higher
Ions at m / e
135,
than
showthe
57 c o n t a i n i n g the a r o m a t i c
from o x y p h e n b u t a z o n e .
introduced
or located
52(32);
205(48);
is 16 units
to those o b t a i n e d
that the newly
51(18);
85(100);
199(16);
340, w h i c h
molecular
and ions
41(30);
OH group c a n n o t
in either
be
of the aromatic
rings. The
synthesized
compound
was
also
751
converted
into
the trimethyl-
Vol. 63, No. 3, 1975
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
100
4,84
0 ,d"~,/Osi (CH3)3 (CH3)3Si O ~ J , ~ j
80-
HgC4"
73
60-
271
403
-
2o-
&28
207
.J.1,..<
..... J
50
100
200
150
'
250
•
i
300
.
.
.
.
i
350
.
.
.
.
i
.
400
.
.
.
i
~50
.
.
500
rnle
Fig.
silyl
i.
The mass s p e c t r u m of 4 - h y d r o x y o x y p h e n b u t a z o n e t r i m e t h y l s i l y l ether.
ether
and a n a l y z e d
a gas c h r o m a t o g r a p h
by the mass
spectrometer
equipped with a 1%
SE-30
tion time of the c o m p o u n d was
converted
using methyl
fatty acids
mass
esters
spectrum
(Fig.
of normal
i) was o b t a i n e d
at 22.5 eV and the trap c u r r e n t at m / e
484, w h i c h
presence
60 pA.
units
aromatic
rings w e r e
that the i n t r o d u c e d
the free r a d i c a l
both carbonyl
of
tion M i x t u r e s :
After
was
[3,5-14C3
scraped
A n a l i q u o t was analyzed
the e l e c t r o n
23.6
(i0). The energy
then 340,
due
compared
The f r a g m e n t a t i o n
susceptible
to the
of ions
upward,
is l o c a t e d
ion
pattern
in the
4 posi-
site for o x i d a t i o n
w o u l d be s t a b i l i z e d
by
groups.
Identification
Rf=0.47
the C-value,
72 units
OH g r o u p s
intermediate
The r e t e n -
It had a m o l e c u l a r
shifted
This w o u l d be a p a r t i c u l a r l y
because
column.
as s t a n d a r d s
higher
the s p e c t r u m of o x y p h e n b u t a z o n e .
indicates tion.
with
combined with
of two t r i m e t h y l s i l y l groups. The m / e v a l u e s
containing with
is 2x72=144
into
as
4-Hydroxyoxyphenbutazone
separation
on TLC,
from the p l a t e
converted
into
by gas c h r o m a t o g r a p h y
the r a d i o a c t i v e
and e l u t e d w i t h
the t r i m e t h y l s i l y l u s i n g a Barber
752
in Incubazone at
ethyl
ether
acetate.
and
Colman model
Vol. 63, No. 3, 1975
BIOCHEMICALAND BIOPHYSICAL RESEARCH COMMUNICATIONS
5000 i n s t r u m e n t radioactivity.
with
The m a s s
the t r i m e t h y l s i l y l
RESULTS
AND
derivative
within
five minutes.
above.
In the a b s e n c e
no o x y g e n
uptake.
c a n t l y by a s p i r i n of e f f e c t i n g Because acetone
responsible
as to w h i c h for o x y g e n
soybean
It was
found
of o x y g e n
experiments
to air o x i d a t i o n be i n h i b i t e d
lipoxygenase component
found that
application
incubation
with
~,5-14C~-oxyphenbutazone
whose Rf=0.47 unbuffered
is i d e n t i c a l
silica
at pH 6 u n d e r 3% c o n v e r s i o n .
gel G.
otherwise
agents
whether
similar
experi-
it bears in p r o s t a -
u p t a k e was
oxygen
During
were
the c o u r s e
of
to TLC plates,
but this could
powder
to pH 6. A f t e r at pH 5, 15 %
to a s i n g l e product, by air o x i d a t i o n
on
of[3,5-14C]-oxyphenbutazone
conditions
therefore
753
to a
is s u c c e p t i b l e
converted
Incubation
consump-
or m e r e l y
experiments
to that p r o d u c e d
These results
in the
this c o m p o u n d
the a c e t o n e
identical
capable
5.
enzyme
gel G b u f f e r e d
was
signifi-
since
of o x y p h e n b u t a z o n e
silica
there was
at pH 9 this did not occur.
to d e t e r m i n e
by u t i l i z i n g
three m i n u t e s of
after
these
uptake,
u p t a k e by the enzyme,
it was
enzyme
component
carried out with~3,5-14C~-oxyphenbutazone. these
at pH 6 or
that at pH 5 o x y g e n
while
to o x i d a t i o n
in the c h a m b e r
not i n h i b i t e d
nor w e r e
at
sheep v e s i c u l a r
occurred
(5) to the d i o x y g e n a s e
it was of i n t e r e s t
triggering
from
on their o w n at pH 4 or
c a r r i e d out w i t h
tion was r e l a t e d
incubated
consumption
U p t a k e was
of the u n c e r t a i n t y
synthetase.
was
or w i t h b o i l e d
for
compound.
oxygen
of e n z y m e
i n d u c e d by o x y p h e n b u t a z o n e , As
prepared
and
as d e s c r i b e d
(185nmoles)of
No o x y g e n
oxygen uptake
a resemblance glandin
uptake
or i n d o m e t h a c i n ,
p o w d e r was
ments were
powder
The o x y g e n
of m a s s
of the s y n t h e s i z e d
When oxyphenbutazone
25 mg a c e t o n e
there was full
registration
s p e c t r u m was o b t a i n e d
DISCUSSION:
pH 4 or 5 w i t h glands,
simultaneous
resulted
indicate
only
that o x y g e n
in a up-
Vol. 63, No. 3, 1975
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
take at pH 5 is r e l a t e d zone.
Similarly,
at pH 5 w h e n
the same o x i d a t i o n
the drug was
Of p a r t i c u l a r conversion
(15%)
tion p r o d u c t powder
of
oxidation
was
mixture.
of this type c o u l d
pared
metry which
showed
oxyphenbutazone oxygen
subjected
of the a c e t o n e
it is p o s s i b l e in vivo as well,
and p r o p e r t i e s
that it was
of the
and the s y n t h e t i c a l l y
into t r i m e t h y l s i l y l
C-values
and mass
with acetone
and this fact also
is r e s i s t e n t
Oxyphenhutazone
b o t h the o x i d a t i o n
to gas c h r o m a t o g r a p h y -
identical
incubated
uptake
the m o l e c u l e
acetone
to the same oxida-
by c o n v e r t i n g
mixtures
4-hydroxyoxyphenbutazone
(ii,
substantial
or l i n o l e a t e , r e s p e c t i v e l y ,
Since
the s t r u c t u r e
from the i n c u b a t i o n
were
sis
that
product.
derivatives
mote
lipoxygenase.
take p l a c e
Its i d e n t i t y was d e t e r m i n e d products
(13%) was p r o d u c e d
the finding
when arachidonate
to i n v e s t i g a t e
of o x y p h e n b u t a -
at pH 8 in the p r e s e n c e
to the i n c u b a t i o n
of i n t e r e s t
product
[3,5-14C]-oxyphenbutazone
also o c c u r r e d
co-oxidation
oxidation
incubated with
significance
or l i p o x y g e n a s e
were added
to e n z y m a t i c
12).
When arachidonate
powder
in the p r e s e n c e
was
under
mass
The
spectro-
spectra.
4-Hydroxy-
at pH 5 did not pro-
suggests
to o x i d a t i o n
is an i n h i b i t o r
powder
ethers.
pre-
that the rest of
these
conditions.
of p r o s t a g l a n d i n incubated
biosynthe-
at pH 8 w i t h
of o x y p h e n b u t a z o n e ,
the
there was an i n -
(CH2)3 CH3
R=H, Oxyphenbutazone R= OH, 4 - Hyd roxyoxyphenbutazone R=OOH, 4-Hydroperoxyoxyphenbutazone Fig.
2.
The s t r u c t u r e derivatives.
of o x y p h e n b u t a z o n e
754
and its o x y g e n a t e d
Vol. 63, No. 3, 1975
hibition
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
of the o x y g e n
uptake.
by 4 - h y d r o x y o x y p h e n b u t a z o n e ,
When oxyphenbutazone
the o x y g e n
transformation
of
also
by o x y p h e n b u t a z o n e
inhibited
butazone. future
The o x y g e n a t i o n s
work
tase and
a Gustavus
Council
2. Marnett, Biochem.
A.
powder
was
of action
of p r o s t a g l a n d i n
for
synthe-
(P.S.P.)
Pfeiffer
Memorial
by a grant
wishes
to thank
Education
Research
for support
Fellowship.
from the S w e d i s h
Medical
(03X-217).
B.
(1972)
Fed.
Proc.
31,
1442-1450.
L.J., Wlodawer, P., and Samuelsson, B. Biophys. Res. Commun. 6_O0, 1286-1294.
(1974)
"The P h a r m a c o l o g i c a l Basis of T h e r a p e u t i c s " , fourth ed., Goodman, L.S., and Gilman, A., editors. The M a c m i l l a n Co., N.Y., 1970, p. 337.
4. Ferreira, S.H., i_44, 57-73. 5. Flower,
R.J.
7. Stoffel,
W.
and Vane,
(1974)
6. Hamberg, M., 5329-5335.
9. Unterhalt,
J.R.
and Samuelsson,
(1964)
B.
Am.
(1972)
A.,
Arch.
Ku,
Rev. B.
Chem.
Bergstr6m, S., Ryhage, R., (1963) J. Biol. Chem. 238,
Ii. Lands, (1972)
and Wasvary,
J.M.
Ann.
26,
(1967)
673,
Pharmaz.
Rome,
755
Pharmacol.
33-67. J. Biol.
F
305,
Samuelsson, 3555-3564.
(1973)
Rev.
Chem.
242,
26-36.
and Matui,
W.E., LeTellier, P.R., Fed. Proc. 3!l, 476 A.
E.C.,
(1974)
Pharmacol.
8. Awang, D.V.C., Vincent, Sci. 62, 1673-1676.
12.
The
to be of i m p o r t a n c e
for P h a r m a c e u t i c a l
supported
i. Samuelsson,
i0,
by the a c e t o n e
seem
One of the authors
Foundation
This w o r k was
3.
enhanced.
its inhibitiors.
the A m e r i c a n
Research
was
but not by 4 - h y d r o x y o x y p h e n -
observed
on the m e c h a n i s m s
ACKNOWLEDGEMENT:
through
[l-14C]-arachidonate
uptake
was r e p l a c e d
J. Pharm.
334-337.
B.,
L.H.
Fed.
(1973)
and
Sj~vall,
and V a n d e r h o c k ,
Proc.
32,
3302.
J.
J.