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Inhibition of mammary gland acetyl CoA carboxylase by fatty acids
Vol.
13, No.
BIOCHEMICAL
4, 1963
lNHll3ITlON
OF
MAMMARY
GLAND
ACETYL
H. The
Received
Ben
September
It rat
has
mammary
cessation
inhibition
by
addition
concept
(Levy,
hoary
extracts (Levy,
residue was
the
following
weaning
acid of of
quantities
The
and
upon
the
ACIDS
of
rat
this
was
activity
in
Chicago,
acetyl
clear
of
and
inguinal
Sprague-Dawley
rats
rat
entirely
in
the
x g;
solution
CoA
mammary 15-20
nature
of
carboxylase.
glands
days
none
(Levy, the
acetyl
in by
elucidate
of
this
inhibited
105,000
supernatant
inhibition
abdominal
at
for
carboxylase
located
to
The produced
support
markedly
attempts
1963b).
extracts
CoA
milk
rapid
l963a;
mananary
was
lactating
the
provides
the
the
the
toward
milk
enzyme
in
(Levy,
of
mechanism
primiparous
rat
centrifuging or
milk
contribute
in
describes
The
of
Examination
inhibitory
layer
Experimental. from
University
ensues
of
that
communication
inhibitor
excised
synthesis
1963b).
fat
may
acid
small
o bt ained the
accumulation
which
revealed
This
l
BY FATTY
Levy*
synthesis fatty
1963a;
(Rlo5)
19636)
CARBOXYLASE
for Cancer Research, Chicago, Illinois
that
fatty
in
Richard
suggested
1963b).
found
CoA
3, 1963
been
of
the
Laboratory
gland
strong
milk
May
AND BIOPHYSICAL RESEARCH COAVvtUNlCATlONS
were
post-partum.
All
. subsequent were
operations
homogenized
potassium removal extracts minutes. solution
*
present
were in
a Waring
phosphate, of
most
were
the
further
(Spzo)
address:
blendor
pH 7.3, of
Crude
performed
CoA
dissolving
Biological Bacteriology New York.
approximately
for
1 minute
containing and
7.0
debris
clarified
acetyl by
fat
at
by
by
centrifuging
carboxylase
was
the
protein,
rrH
4 with
glands of
0.1
p-mercaptoethanol.
After
at
at prepared
2000
20,000
x
from
the
x g,
g for
precipitated
Research Laboratories, and Botany, Syracuse
267
The
2 volumes
centrifugation
which
.
Department University,
the
30
supernatant upon
adding
of Syracuse,
M
Vol.
13, No.
ammonium 6.5
sulfate
20,000
x g,
20,000
the
7.0
or
x
The
The
enzyme
and
Christian
mg of
ATP;
4 umoles of
of
)
15 minutes
counted
in
centrifuged
plated
on
ethanol-sodium
acetate
OR-17,
Thiolesters
1961).
methanolic
sodium product
over
identical
Phares,
90% to
of that
ml
off
and
visualized
a glacial
1952).
Acids were
malonic
located radioactive of
acid.
of
the The
268
with
super-
dryness,
and
product in
and the
alkaline
specific
was sample; activity
identity hydrolysis system
with
spot
an Circular
for
aid
of
was
Laboratories
visualized
ml
clear
acid-ether-water
applied
0.1
protein
the to
its
0.15 After
nitroprusside
the
of
precipitated
Support
with
was
and
chromatography
1957).
ware
reaction
halted
Pabst
acetic
1.4
controls.
reaction
chromatographing
in
the
aliquot
with
(Stadtman,
pH
10 umoles
2 N KCl;
from
(1963).
incubation
mc/m~l)~
was
paper
al
kept
Warburg
The
(0.075
an
if
and
ml.
from
at
phosphate,
evaporated
(modified
by
of
containing
of
by
--et
noted};
0.6
The
CoA
radioactivity of
0.2
malonyl
A single
the
reaction
counter.
spots
scanner.
the
gas-flow
were
1960)
omitted
planchets,
obtained
radioactive
chromatogram for
was
was
weeks
prior
where of
centrifuging
with
potassium
NaHC1403
steel
hydroxide
(Vagelos, and
37’,
system
of
same
recentrifuging
method
a 15 minute
this
and
Vagelos
the
a solution of
by
of
pH
preparations several
that
umoles
of
CoA
were
as
for
a volume
umoles
followed
thawing
(except
ml
by
enzyme
by to
40
at
identified
and
on
subjected
25
a windowless
tentatively
green
based
Acetyl
acid,
solution
(Dennison
was
0.4
for
natant
product
stable
in
MnCl 2;
perchlorate
the
was
phosphate against
clarified
gave
citrate
adding
M potassium
freezing,
enzyme
potassium
CoA.
by
RESEARCH COMMUNICATIONS
dialyzing
was
determined
was
acetyl
5 N perchloric
of
or
containing
by
incubation
and
g,
B -mercaptoethanol,
initiated
umoles
enzyme
protein,
a solution
then
0.05 and
procedures
procedure
(1941)
of
x two
The
of
in
dialyzed
last
assay
10 umoles
saturation,
105,000
The
(l-7
37 a in
umoles
The
activity.
frozen.
of
AND BIOPHYSKAL
mM p-mercaptoethanol,
at
g-
highest
6.5;
50%
3 hours.
for
at
to
containing
buffer
at
BIOCHEMICAL
4, 1963
of
bromocresol a paper
found
which its of
Rf
accounted was
NaHC1!03
BfOCHEMfCAL
Vol. 13, No. 4, 1963 was
determined
by
containing
extracted
indicated
rat
milk);
from
tardy
planchets in
liquid
identified
acids
acids
of
(Table
the
the
greater
experiment,
of
was
therefore
myristic
in
presence The
acids however,
solution
Table
potent
inhibitors
renders
the
more
inhibition compared
The
effective
in
seen to
with
of
myristic
and
lb,
of
acetyl
subjected acids
of
and carboxylase
fatty
acids, upon
that this
enzyme.
may
palmitic
by
acids
it long-chain
with
these
experiment
which
the
acetyl
maintaining
in
bound
capric,
found
although
were
CoA
acids
1 shows
rat
was
palmitic
used
respect,
of
extract
then
inhibition
this
ml
following
in
procedure
experiment
the
difficulty lack
(0.1
and
fatty
examined.
significance.
proved
free
when
Rlo5
unesterified of
the
milk
(1959)
of
one
extracts
myristic,
certain
that
acetone
of
in
was
evaporation).
rat
al
inhibition
clarified
(acetone
by
of
lauric,
effect
were
20.5
in
esters
the
29.0
removed
et
milk
incorporated
milk);
Stoffel
the
were
(control);
rat
rat
Thus,
02
extract
that
milk.
C
14
acids
acetone of
the
doubtful 1)
fatty
retention
emphasized,
fatty
found
time:
carboxylase
be
of
their
in
and
solvent
procedure
from
particles
lauric,
Rlo5;
suggested
result
ml
methyl
This
might
of
an
temperature,
43.9
made:
chr~atography, by
stearic.
of
0.1
(1956)
the
room
from
activity.
from
When
by
gas
2
account
acids quantities
in
for this
added
were
let-. The
and
steel
counting
fraction
inhibitory
were
(Rlo5
microsomes.
methylated
the
at
quantities
quantity
and
1 iver
of
additions
same
Pressman
smal
on
and
R105
acetone
following
23.9
the
with most
the
the
the
aliquots
drying,
a twice-washed
times
contained
experiment
must
hydroxide,
When
five
extract
CoA
barium
diluted
RESEARCH COMMUNfCATfONS
counter. Results.
to
suitably
excess
gas-flow
to
plating
AND BIOPHYSICAL
Lardy
stimulation
(1956)
C1402
incorporation.
using
King’s
of does
modification
not
latent
ATPase
seem
ATPase
to was
(King,
be
the
cause
assayed 1932)
by of
269
fatty
for
measuring the
method
observed the
by
inhibition phosphate of
Fiske
Pressman of
liberation and
BIOCHEMICAL
Vol. 13, No. 4, 1963 Subbarow but
(1925)
under
substituting effect
either
in
enzyme
preparations
the
acid
upon
absence
used for
or
in
swelling
is
free
acetyl
CoA
carboxylase
(which
had
no
No ATPase
was
detected,
0.5
of
of
RESEARCH COMMUNICATIONS
buffer
presence
mM caprate.
mitochondria,
involved.
Biotin
Inhibition Acid
of
Experiment vmoles C 14
Added
not
the
upon
protect
against
Acetyl
I
CoA
Carboxylase
la*
by
Experiment
O2
wmoles incorporated
Fatty
Acids
1 b*
I4 C
Experiment
O2
2*
wmoles C incorporated
%
14
O2 %
incorporated
%
43.9
100
43.9
100
70.1
100
69.2 69.7
98 99
44.4
63 1.6
None
48.3
110
46.9
107
Caproi
c
45.6
104
46.8
106
Capryl
ic
43.9
100
29.8
68
Butyr
Since
no effect
did
assay,
inhibition.
TABLE
Fatty
the
activity).
the
were
in
phosphate
carboxylase
used
mitochondrial fatty
conditions
tris-acetate
substantial
AND BIOPHYSICAL
ic
Capric
7.57 0.88
17 2.0
0.59
1.10
1.3
0.96
1.4
0.67
1.0
Myristic
17.1 38.6
39 88
31.6
72
Palmitic
41.7
95
40.7
93
46.8
67
Stearic
46.5
106
47.6
109
68.7
98
Laur
*
ic
Concentration of fatty acids, if completely dissolved (see text): experiment la, 0.5 nJt; lb, 5.0 mM; 2, 2.0 mM. Fresh Sp20 was used for experiments la and lb; the same enzyme, kept frozen for 1 week, thawed, and clarified by centrifuging at 20,000 x g was used in In experiments la and lb, fatty acids were added to experiment 2. the incubation tubes as petroleum ether solutions, the solvent evaporated, and the other components then added. In experiment 2, the acids were added as potassium sa?ts in aqueous solution and were completely clear when added. Subsequent addition of the other reactior. components led to some precipitation of the long chain fatty acids.
That
the
inhibition
activation
of
carboxylic
acids
is
suggested
by
acetyl
by
CoA (Martin
the
fatty
acids
carboxylase and
experiments
by
Vagelos,
may
involve
citrate
or
1962;
shown
270
in
Table
Waite 2.
interference other and In
diWakil, experiment
with and
tri-
ig62), 1,
BIOCHEMICAL
Vol. 13, No. 4, 1963
high
concentrations
effect with
of
of
caprate.
citrate
or
inhibition.
malonate
but,
as
able,
gave
partly,
3 show
2 and considerable
these
by
acids
Martin
were
of
Caprate
and
less
Activatinq
Activator
A.
the
preincubation
and
Vagelos
enzyme
caprate
also
provided
(1962)
enzyme
inhibitory of
against
DL-malate
and
Waite
activators.
2
Acids
No
overcome
on
Acetyl
CoA
incorporated, B.
Caprate
Carboxylase
wmo1e.s
0.5
mM Caprate
8x
100
A
umoles/ml
1
None Citrate,
5 ::
i
that
effective
C1402 Experiment * No.
to
and
TABLE Effects
RESEARCH COMMUNICATIONS
protection
d -ketoglutarate, demonstrated
(1962),
Wakil
were
Experiments
Guccinate,
protection and
citrate
AND BIOPHYSICAL
1.26 38.9 46.' 48.7
6.77 13.0 '6.'
'7 28 33
2
None Citrate,10 Malonate,lO
O.S! '2.8 2.72
0.80 4.08 0.56
'57 32 2'
3
None Citrate,10 Malonate,lO
0.85 20.2 4.34
0.56 '4.8 3.17
66
::
In experiment 1 both citrate and caprate were present in the prior incubation. In experiment 2 caprate was present in the prior incubation and citrate or malonate were added with substrates, whereas in experiment 3 the activator was present in the prior incubation and caprate was added with substrates. The same enzyme was used for experiments 2 and 3; a different preparation was employed for experiment I.
These activation The fatty
data of
acetyl
specificity acid
suggest
of
CoA this
synthesis
Acknowledqement. Mr.
Laurence
E.
that
effect by
fatty
carboxylase
milk
of
by and
is
Gas-liquid Frazier
certain
the
its
under
di-
acids
may
and
tricarboxylic
relationship
to
interfere
with acids.
the
inhibition
of
investigation. chromatography
Department
271
of
was Pathology,
kindly University
performed
by of
Vol. 13, No. 4, 1963
BIOCHEMICAL
Excellent
Chicago.
technical
Supported
Harrington. Service
and
the
AND BIOPHYSICAL
assistance
by grants
American
was
from
Cancer
the
RESEARCH COMMUNICATIONS
provided
United
by
Mr.
States
Richard
Public
W-
Health
Society. REFERENCES
Dennison, Fiske,
F. C.
W.,
H.,
Jr.,
and
and
Phares,
Subbarow,
Y.,
King,
E.
J.,
Biochem.
Levy,
H.
R.,
Federation
Proc.
Levy,
H.
R.,
Manuscript
in
Martin,
D.
Pressman,
458 Stadtman, in
B.,
and
B. C., (1956).
J.,
in
Stoffel,
W.,
Vagelos,
P.
R.,
Vagelos, m,
P.
R., Alberts, (1963).
Waite, Warburg,
Chu,
Lardy,
S. Vol.
F., J.
P.
Biol.
Biol.
292
Anal.
Chem.,
Chem.
66,
3, 375
1628
(1932).
363 (1963a)
, 22,
-
(1963b).
P.
R.,
J.
H.
A.,
Biochim.
Ahrens,
Biol.
Chem., et
m,
1787
Biophys.
E.
Chem.,
u,
A.
W.,
and
J.,
J.
Biol.
H.,
Jr.,
Anal.
346
(1960).
Martin,
D.
B.,
(1962).
Acta,
2l,
Chem.,
J.
Biol.
Methods 1957, p. 2,
307
Chem.,
533 M.,
and O.,
Waki and
1,
Christian,
S.
W.
(1952).
(1925).
Colowick and N. 0. Kaplan (Editors), Academic Press Inc., New York,
III, and
J.
F.,
preparation
Vagelos, and
E. R., Enzymology,
26,
E.
Chem.,
Biochem.
272
Z.,
m 310,
2750
384
(1962). (1941)
*
931. (1959).
13, No.
BIOCHEMICAL
4, 1963
lNHll3ITlON
OF
MAMMARY
GLAND
ACETYL
H. The
Received
Ben
September
It rat
has
mammary
cessation
inhibition
by
addition
concept
(Levy,
hoary
extracts (Levy,
residue was
the
following
weaning
acid of of
quantities
The
and
upon
the
ACIDS
of
rat
this
was
activity
in
Chicago,
acetyl
clear
of
and
inguinal
Sprague-Dawley
rats
rat
entirely
in
the
x g;
solution
CoA
mammary 15-20
nature
of
carboxylase.
glands
days
none
(Levy, the
acetyl
in by
elucidate
of
this
inhibited
105,000
supernatant
inhibition
abdominal
at
for
carboxylase
located
to
The produced
support
markedly
attempts
1963b).
extracts
CoA
milk
rapid
l963a;
mananary
was
lactating
the
provides
the
the
the
toward
milk
enzyme
in
(Levy,
of
mechanism
primiparous
rat
centrifuging or
milk
contribute
in
describes
The
of
Examination
inhibitory
layer
Experimental. from
University
ensues
of
that
communication
inhibitor
excised
synthesis
1963b).
fat
may
acid
small
o bt ained the
accumulation
which
revealed
This
l
BY FATTY
Levy*
synthesis fatty
1963a;
(Rlo5)
19636)
CARBOXYLASE
for Cancer Research, Chicago, Illinois
that
fatty
in
Richard
suggested
1963b).
found
CoA
3, 1963
been
of
the
Laboratory
gland
strong
milk
May
AND BIOPHYSICAL RESEARCH COAVvtUNlCATlONS
were
post-partum.
All
. subsequent were
operations
homogenized
potassium removal extracts minutes. solution
*
present
were in
a Waring
phosphate, of
most
were
the
further
(Spzo)
address:
blendor
pH 7.3, of
Crude
performed
CoA
dissolving
Biological Bacteriology New York.
approximately
for
1 minute
containing and
7.0
debris
clarified
acetyl by
fat
at
by
by
centrifuging
carboxylase
was
the
protein,
rrH
4 with
glands of
0.1
p-mercaptoethanol.
After
at
at prepared
2000
20,000
x
from
the
x g,
g for
precipitated
Research Laboratories, and Botany, Syracuse
267
The
2 volumes
centrifugation
which
.
Department University,
the
30
supernatant upon
adding
of Syracuse,
M
Vol.
13, No.
ammonium 6.5
sulfate
20,000
x g,
20,000
the
7.0
or
x
The
The
enzyme
and
Christian
mg of
ATP;
4 umoles of
of
)
15 minutes
counted
in
centrifuged
plated
on
ethanol-sodium
acetate
OR-17,
Thiolesters
1961).
methanolic
sodium product
over
identical
Phares,
90% to
of that
ml
off
and
visualized
a glacial
1952).
Acids were
malonic
located radioactive of
acid.
of
the The
268
with
super-
dryness,
and
product in
and the
alkaline
specific
was sample; activity
identity hydrolysis system
with
spot
an Circular
for
aid
of
was
Laboratories
visualized
ml
clear
acid-ether-water
applied
0.1
protein
the to
its
0.15 After
nitroprusside
the
of
precipitated
Support
with
was
and
chromatography
1957).
ware
reaction
halted
Pabst
acetic
1.4
controls.
reaction
chromatographing
in
the
aliquot
with
(Stadtman,
pH
10 umoles
2 N KCl;
from
(1963).
incubation
mc/m~l)~
was
paper
al
kept
Warburg
The
(0.075
an
if
and
ml.
from
at
phosphate,
evaporated
(modified
by
of
containing
of
by
--et
noted};
0.6
The
CoA
radioactivity of
0.2
malonyl
A single
the
reaction
counter.
spots
scanner.
the
gas-flow
were
1960)
omitted
planchets,
obtained
radioactive
chromatogram for
was
was
weeks
prior
where of
centrifuging
with
potassium
NaHC1403
steel
hydroxide
(Vagelos, and
37’,
system
of
same
recentrifuging
method
a 15 minute
this
and
Vagelos
the
a solution of
by
of
pH
preparations several
that
umoles
of
CoA
were
as
for
a volume
umoles
followed
thawing
(except
ml
by
enzyme
by to
40
at
identified
and
on
subjected
25
a windowless
tentatively
green
based
Acetyl
acid,
solution
(Dennison
was
0.4
for
natant
product
stable
in
MnCl 2;
perchlorate
the
was
phosphate against
clarified
gave
citrate
adding
M potassium
freezing,
enzyme
potassium
CoA.
by
RESEARCH COMMUNICATIONS
dialyzing
was
determined
was
acetyl
5 N perchloric
of
or
containing
by
incubation
and
g,
B -mercaptoethanol,
initiated
umoles
enzyme
protein,
a solution
then
0.05 and
procedures
procedure
(1941)
of
x two
The
of
in
dialyzed
last
assay
10 umoles
saturation,
105,000
The
(l-7
37 a in
umoles
The
activity.
frozen.
of
AND BIOPHYSKAL
mM p-mercaptoethanol,
at
g-
highest
6.5;
50%
3 hours.
for
at
to
containing
buffer
at
BIOCHEMICAL
4, 1963
of
bromocresol a paper
found
which its of
Rf
accounted was
NaHC1!03
BfOCHEMfCAL
Vol. 13, No. 4, 1963 was
determined
by
containing
extracted
indicated
rat
milk);
from
tardy
planchets in
liquid
identified
acids
acids
of
(Table
the
the
greater
experiment,
of
was
therefore
myristic
in
presence The
acids however,
solution
Table
potent
inhibitors
renders
the
more
inhibition compared
The
effective
in
seen to
with
of
myristic
and
lb,
of
acetyl
subjected acids
of
and carboxylase
fatty
acids, upon
that this
enzyme.
may
palmitic
by
acids
it long-chain
with
these
experiment
which
the
acetyl
maintaining
in
bound
capric,
found
although
were
CoA
acids
1 shows
rat
was
palmitic
used
respect,
of
extract
then
inhibition
this
ml
following
in
procedure
experiment
the
difficulty lack
(0.1
and
fatty
examined.
significance.
proved
free
when
Rlo5
unesterified of
the
milk
(1959)
of
one
extracts
myristic,
certain
that
acetone
of
in
was
evaporation).
rat
al
inhibition
clarified
(acetone
by
of
lauric,
effect
were
20.5
in
esters
the
29.0
removed
et
milk
incorporated
milk);
Stoffel
the
were
(control);
rat
rat
Thus,
02
extract
that
milk.
C
14
acids
acetone of
the
doubtful 1)
fatty
retention
emphasized,
fatty
found
time:
carboxylase
be
of
their
in
and
solvent
procedure
from
particles
lauric,
Rlo5;
suggested
result
ml
methyl
This
might
of
an
temperature,
43.9
made:
chr~atography, by
stearic.
of
0.1
(1956)
the
room
from
activity.
from
When
by
gas
2
account
acids quantities
in
for this
added
were
let-. The
and
steel
counting
fraction
inhibitory
were
(Rlo5
microsomes.
methylated
the
at
quantities
quantity
and
1 iver
of
additions
same
Pressman
smal
on
and
R105
acetone
following
23.9
the
with most
the
the
the
aliquots
drying,
a twice-washed
times
contained
experiment
must
hydroxide,
When
five
extract
CoA
barium
diluted
RESEARCH COMMUNfCATfONS
counter. Results.
to
suitably
excess
gas-flow
to
plating
AND BIOPHYSICAL
Lardy
stimulation
(1956)
C1402
incorporation.
using
King’s
of does
modification
not
latent
ATPase
seem
ATPase
to was
(King,
be
the
cause
assayed 1932)
by of
269
fatty
for
measuring the
method
observed the
by
inhibition phosphate of
Fiske
Pressman of
liberation and
BIOCHEMICAL
Vol. 13, No. 4, 1963 Subbarow but
(1925)
under
substituting effect
either
in
enzyme
preparations
the
acid
upon
absence
used for
or
in
swelling
is
free
acetyl
CoA
carboxylase
(which
had
no
No ATPase
was
detected,
0.5
of
of
RESEARCH COMMUNICATIONS
buffer
presence
mM caprate.
mitochondria,
involved.
Biotin
Inhibition Acid
of
Experiment vmoles C 14
Added
not
the
upon
protect
against
Acetyl
I
CoA
Carboxylase
la*
by
Experiment
O2
wmoles incorporated
Fatty
Acids
1 b*
I4 C
Experiment
O2
2*
wmoles C incorporated
%
14
O2 %
incorporated
%
43.9
100
43.9
100
70.1
100
69.2 69.7
98 99
44.4
63 1.6
None
48.3
110
46.9
107
Caproi
c
45.6
104
46.8
106
Capryl
ic
43.9
100
29.8
68
Butyr
Since
no effect
did
assay,
inhibition.
TABLE
Fatty
the
activity).
the
were
in
phosphate
carboxylase
used
mitochondrial fatty
conditions
tris-acetate
substantial
AND BIOPHYSICAL
ic
Capric
7.57 0.88
17 2.0
0.59
1.10
1.3
0.96
1.4
0.67
1.0
Myristic
17.1 38.6
39 88
31.6
72
Palmitic
41.7
95
40.7
93
46.8
67
Stearic
46.5
106
47.6
109
68.7
98
Laur
*
ic
Concentration of fatty acids, if completely dissolved (see text): experiment la, 0.5 nJt; lb, 5.0 mM; 2, 2.0 mM. Fresh Sp20 was used for experiments la and lb; the same enzyme, kept frozen for 1 week, thawed, and clarified by centrifuging at 20,000 x g was used in In experiments la and lb, fatty acids were added to experiment 2. the incubation tubes as petroleum ether solutions, the solvent evaporated, and the other components then added. In experiment 2, the acids were added as potassium sa?ts in aqueous solution and were completely clear when added. Subsequent addition of the other reactior. components led to some precipitation of the long chain fatty acids.
That
the
inhibition
activation
of
carboxylic
acids
is
suggested
by
acetyl
by
CoA (Martin
the
fatty
acids
carboxylase and
experiments
by
Vagelos,
may
involve
citrate
or
1962;
shown
270
in
Table
Waite 2.
interference other and In
diWakil, experiment
with and
tri-
ig62), 1,
BIOCHEMICAL
Vol. 13, No. 4, 1963
high
concentrations
effect with
of
of
caprate.
citrate
or
inhibition.
malonate
but,
as
able,
gave
partly,
3 show
2 and considerable
these
by
acids
Martin
were
of
Caprate
and
less
Activatinq
Activator
A.
the
preincubation
and
Vagelos
enzyme
caprate
also
provided
(1962)
enzyme
inhibitory of
against
DL-malate
and
Waite
activators.
2
Acids
No
overcome
on
Acetyl
CoA
incorporated, B.
Caprate
Carboxylase
wmo1e.s
0.5
mM Caprate
8x
100
A
umoles/ml
1
None Citrate,
5 ::
i
that
effective
C1402 Experiment * No.
to
and
TABLE Effects
RESEARCH COMMUNICATIONS
protection
d -ketoglutarate, demonstrated
(1962),
Wakil
were
Experiments
Guccinate,
protection and
citrate
AND BIOPHYSICAL
1.26 38.9 46.' 48.7
6.77 13.0 '6.'
'7 28 33
2
None Citrate,10 Malonate,lO
O.S! '2.8 2.72
0.80 4.08 0.56
'57 32 2'
3
None Citrate,10 Malonate,lO
0.85 20.2 4.34
0.56 '4.8 3.17
66
::
In experiment 1 both citrate and caprate were present in the prior incubation. In experiment 2 caprate was present in the prior incubation and citrate or malonate were added with substrates, whereas in experiment 3 the activator was present in the prior incubation and caprate was added with substrates. The same enzyme was used for experiments 2 and 3; a different preparation was employed for experiment I.
These activation The fatty
data of
acetyl
specificity acid
suggest
of
CoA this
synthesis
Acknowledqement. Mr.
Laurence
E.
that
effect by
fatty
carboxylase
milk
of
by and
is
Gas-liquid Frazier
certain
the
its
under
di-
acids
may
and
tricarboxylic
relationship
to
interfere
with acids.
the
inhibition
of
investigation. chromatography
Department
271
of
was Pathology,
kindly University
performed
by of
Vol. 13, No. 4, 1963
BIOCHEMICAL
Excellent
Chicago.
technical
Supported
Harrington. Service
and
the
AND BIOPHYSICAL
assistance
by grants
American
was
from
Cancer
the
RESEARCH COMMUNICATIONS
provided
United
by
Mr.
States
Richard
Public
W-
Health
Society. REFERENCES
Dennison, Fiske,
F. C.
W.,
H.,
Jr.,
and
and
Phares,
Subbarow,
Y.,
King,
E.
J.,
Biochem.
Levy,
H.
R.,
Federation
Proc.
Levy,
H.
R.,
Manuscript
in
Martin,
D.
Pressman,
458 Stadtman, in
B.,
and
B. C., (1956).
J.,
in
Stoffel,
W.,
Vagelos,
P.
R.,
Vagelos, m,
P.
R., Alberts, (1963).
Waite, Warburg,
Chu,
Lardy,
S. Vol.
F., J.
P.
Biol.
Biol.
292
Anal.
Chem.,
Chem.
66,
3, 375
1628
(1932).
363 (1963a)
, 22,
-
(1963b).
P.
R.,
J.
H.
A.,
Biochim.
Ahrens,
Biol.
Chem., et
m,
1787
Biophys.
E.
Chem.,
u,
A.
W.,
and
J.,
J.
Biol.
H.,
Jr.,
Anal.
346
(1960).
Martin,
D.
B.,
(1962).
Acta,
2l,
Chem.,
J.
Biol.
Methods 1957, p. 2,
307
Chem.,
533 M.,
and O.,
Waki and
1,
Christian,
S.
W.
(1952).
(1925).
Colowick and N. 0. Kaplan (Editors), Academic Press Inc., New York,
III, and
J.
F.,
preparation
Vagelos, and
E. R., Enzymology,
26,
E.
Chem.,
Biochem.
272
Z.,
m 310,
2750
384
(1962). (1941)
*
931. (1959).