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Response of mitochondrial ATPase activity to uncouplers in isolated organelles and whole cells of Zajdela hepatoma
Vol. 100, No. 3,198l June
8iOCHEMiCAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS Pages 1202-1208
16, 1981
RESPONSE OF MITOCHONDRIAL ISOLATED
LuciakGva
Research
March
TO UNCOUPLERS IN
and Stefan
Institute,
Slovak
Bratislava, Received
ACTIVITY
ORGANELLES AND WHOLE CELLS OF ZAJDELA HEPATOMA Katarina
Cancer
ATPase
Kuzela
Academy
of
Sciences,
Czechoslovakia
6,198l
SUMMARY. ATPase activity of coupled Zajdela hepatoma mitochondria was rendered uncoupler-sensitive by decreasing free fatty acids content in mitochondria or by preincubation of mitochondria with ATP prior to the addition of an uncoupler. The latter treatment resulted in an accelerated transport of ATP into the organelles. The effect of carbonylcyanide-m-chlorophenylhydrazone and oligomycin on the decrease of the AW content in whole Zajdela hepatoma cells indicated that the hepatoma mitochondrial ATPase is stimulated by uncouplers in vivo. The conclusion is that the uncoupler-insensitive ATPase zti%?y of coupled Zajdela hepatoma mitochondria is exhibited only by isolated organelles and results from a reduced ATP/ADP translocase activity. INTRODUCTION. mitochondria tumors
/for
The ATPase
/l/
similarly
rev.
see 2/
uncoupler-sensitivity with
ATP prior
effect
of
found
in
ATP is brain
explanation study hepatoma stimulated translocase.
is
the not
that
the
mitochondria ATPase
restored
if of
is
activity
Moreover,
several
tumor
still
the
@I 1981 by Academic Press, of reproducfion in any form
/2-4/.
/4/.
of
ATP to
eliciting
in
an activation
an evidence
is
presented
1202
but
is
also
Satisfactory
resides
Inc. reserved.
This
The results
addition
uncoupler
0006-291X/81/111202-07$01.00/0
incubated
mitochondria
missing.
of the
experimental
are
uncoupler
ABBREVIATIONS: BSA, bovine serum albumin; phenol; CCCP, carbonylcyanide-z-chlorophenylhydrazone;
Copyrighl All rights
other
hepatoma
However,
mitochondria
effect
before
Zajdela
mitochondria
the
to
liver
effect
of
coupled
uncoupler-insensitive.
restricted
this
of
that
addition
and fetal
of
indicate
to
is to
activity
of
this
Zajdela
uncouplerof ATP/ADP that
the
DNP, 2,4-dinitro-
Vol. 100, No. 3,198l
BIOCHEMICAL
mitochondrial
ATPase
is
by uncouplers0
stimulated
AND
activity
BIOPHYSICAL
in
whole
RESEARCH
cells
of
COMMUNICATIONS
Zajdela
hepatoma
?'ATLRIAI,S AWD L1ET-HQDS. rlaintenance and propagation of experimental tumors in ascitic form as IJell as the isolation of mitochondria from these tumors and from rat liver :.Tere performed as described elsewhere /5/. ATPase activity of mitochondria was measured by determination of inorganic phosphate liberated from ATP /6/ in a medium containing 5Om'F'IKCl, 1OmM TRIS-HCl, pH 7.5 and 6rnM ATP. Forward exchange of,ATP by mitochondria was measured essentially according to /7/. ATP content was de-termined in the neutralized RClO& extracts /8/ using commercial assay kit /Boehringer, Germany/. Incubation of mitochondria with carnitine and CoA was performed according to /o/. After the incubation the mitochondria were pelleted and resuspended in the preparation medium and assayed for the ATPase activity and free fatty acids content. Free fatty acids were extracted and determined as detailed in /lo/. RESULTS AND DISCUSSION. Zajdela
hepatoma
concentrations
the
mitochondria of
respectively/
normalized observed
if
uncoupler
of
/Fig.lA/.
It
uncoupler-stimulated be due
to the
a direct
proof
in
the
Zajdela
tumor
that
ATPase to
the
and Ekrlich
ascites
-stimulated
ATPase
of
in
to uncouplers
mitochondria
of
translocase
/12/
than
rat
of
which
by the
ATPase
Dixon
exhibit
activity
1203
role hepatoma
plot it
may
ATP hydrolysis
The rate-limiting
Using
low
However,
FIATPase
mitochondria
ATP hydrolysis
the
was not
ATP/ADP translocase'/l3/
/l/.
the
that
activity.
less
was
mitochondria
factor
contain
a
to
/ll/
tumor
after
/3/
prior
suggested
may be the
questionable.
inhibition
activity
of
CCCP,
mitochondria findings
rate-limiting
activity
by low
previous
activity
carcinoma
ATP/ADP translocase more
the
mitochondria
coupled
only
to the
ATP/ADP translocase
mitochondria
amount
becomes
our
was already
reduced
hepatoma
atractyloside
the
ATPase
an elevated
thus
with
ATP was added
of
to 15).1MDNP or O.l@Y
/up
ATP was added
In accord response
activity
was stimulated
uncouplers
providing
uncoupler.
The ATPase
of
given. and liver uncouplerof
mitochondria carboxy-
was demonstrated
Vol. 100, No. 3,198l
8lOCHEMlCAL
AND
8lOPHYSKAL
RESEARCH
COMMUNICATIONS
Fig.1. Stimulation of ATPase activity of Zajdela hepatoma mitochondria by DNP under various conditions. A- ATP /substrate, 6mM/ was added to the mitochondria 3 min before /o/ or 5 min after /e/ the uncoupler. The preincubation withoATP prior to the addition of the uncoupler was performed at 0 C and that with uncoupler before the addition of ATP at 30°C. B- ATPase activity of Zajdela hepatoma mitochondria prepared in the absence /o/ or in the presence /m/ of 0.1% BSA. ATP was added to the mitochondria after the uncoupler as detailed in A. C- Untreated mitochondria /a/ and organelles preincubated with carnitine and CoA /A/ or preincubated under the same conditions without carnitine and CoA except that the preparation medium was used /A/, were assayed for the ATPase activity. The uncoupler was added to the mitochondria before ATP as detailed in A.
that
the
hepatoma translocase
uncoupler-stimulated and
rat activity
ATPase
liver
mitochondria
activity is
of
limited
both
Zajdela
by ATP/ADP
/Fig.2/.
0
a2 cartloKyatr*ctyloside bvrd I rng protein)
Fi..2. Inhibition of the ATFase activity of rat ZaJde a hepatoma mitochondria by carboxyatractyloside, The inhibition was determined at maximal stimulation ATPase activity by DNP. V is expressed as pmoles of zed /min/mg protein. Rat liver mitochondria in the lOOpI DNP /e/, Zajdela hepatoma mitochondria in the lOp?l DNP /o/.
4-
1204
liver
and Dixon plot. of the ATP hydrolypresence of presence of
8lOCHEMlCAl
Vol. 100, No. $1981
Table
1. Effect
AND
8lOPHYSlCAl
of various free fattv
the
RESEARCH
COMMUNICATIONS
treatments of mitochondria acids content.
;i;;I;toma 1 Free fatty
acids
on
upon treatment
Control values /lOO$/ for rat liver mitochondria 7.3+0.8 nmol/mg protein and for Zajdela hepatoma mitochondriz 18.922.3 nmol/mg protein. Mitochondria were incubated 3 min with 6mM ATP at O°C or with carnitine and CoA. After the incubation mitochondria were pelleted, resuspended in the preparation medium and free fatty acids and ATPase activity were determined. BSA /O.l$/ was included in the preparation medium.
Free
fatty
ATP/ADP
acids
translocase
mitochondria dria
of
with
data
in
tumor
/14/.
liver
/Tab.l/.
demonstrating
the
sensitive
to
However,
as detected
into
Zajdela
The rate depend free
of
to
fatty
order
acids
the
initial
mitochondria
of
inhibit
into the
rat
of
of
ATP/ADP
1205
of
mitochondria acids the
ATPase
activity.
exchange
of
the
ATP
ATP transport higher
uncoupler
mitochondria
when /Tab.2/.
did
ATP and uncoupler.
translocase
fatty
and CoA
3 times
the
ATPase
free
under
to
liver
of
by ATP even
forward
prior
acids
fatty
rate
addition the
fatty
The free
was about
mitochondria
of ATP transport on the
Tab.l/.
uncoupler-stimulated
CCCP, the
the
agreement
content
hepatoma
affected
mitochon-
stimulation
the
Zajdela
by measuring
hepatoma
ATP was added
of
/Fig.lB,C;
the
in
by BSA or carnitine
significantly
eliciting
in
of free
a reduced
of
hepatoma
than is
amount
Decreasing
activity
uncouplers
presence
higher
inhibitors
Zajdela
observation
mitochondria
conditions
the
/ll/.
ATPase
was not
times
exhibiting
in hepatoma
rendered
in
an elevated
mitochondria
content
This
occuring
content
to be 2.6
by uncouplers
acids
naturally Their
was found
rat
activity
in
represent
competetively
not As
BIOCHEMICAL
Vol. 100, No. 3,19Bl
Table
BIOPHYSKAL
RESEARCH
COMMUNICATIONS
2. Rate of the ATP transport into Zajdela hepatoma rat Ilver mitochondria in the presence of CCCP.
Source
liver
Zajdela
and
Initial rate of ATP transporg /nmOl ATP/min/mg protein at 0 C/ ATP added before CCCP ATP added after CCCP /A/ /w
of
mitochondria rat
AND
hepatoma
2.96
2.48
1.86
0.52
/A/ ATP /lmN/ was added to the mitoch Qd ia 10 min before 2w CCCP. After further 5 min incubation! * CTATP /final specific radioactivity 1000 cpm/nmol/ was added. /IV Kitochondr& were preincubated for 5 min with 2p CCCP then ATP /lmM/ and[ C]ATP /final specific radioactivity 1000 cpm/nmo l/ were added simultaneusly. The translocation was l25W carboxyatractyloside 10 min after the addition and mitochondria were separated by rapid centrifugation.
/15/
it
may be supposed
chondria
results
locase
without
A necessary
in
that
a removal
affecting is
of free
concentrations
of
these
total
that
fatty
addition
of
their
corollary
distribution
the
uncoupler
inhibitors amount
such
acids
of ATP to
the
from
in
mitothe
mitochondria.
an intrsmitochondrial can be prevented
added
to
the
trans-
reby higher
mitochondria
before
ATP. Accumulation pase
treatment
a loss
of
et
/17/
al.
isolated
using
the
of mouse
liver
mitochondria
medium data
a milder their
ATPase
possibility
data
whether
activity
the
activity
this
by uncouplers of
activity
was sensitive
ATPase
effect
study of
the to
give
Zajdela in --
CCCP and oligomycin
1206
Kaschnitz
and BSA in
in
by
previously
ATPase
disruption
can be stimulated
/16/.
rnitochondria
presented
the
accompanied
activity
when tumor
cell
or by phospholi-
is
uncoupler-insensitive
and the
question
by ageing
ATPase
that
exhibit
rnitochondria this
acids
reported
to
These
fatty
uncoupler-sensitive
reported
ration
of free
vivo.
were prepa-
uncouplers. raise
to
hepatoma To check on the
ATP
BIOCHEMICAL
Vol. 100, No. 3,198l
Table
3. Effect
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
of oligomycin and CCCP on ATP content Zajdela hepatoma cells,
Additions
ATP content /nmol/ml packed
none
in
cells/
1112.8
oligomycin+CCCP
488.9
CCCP
263.5
Packed cells /0.18 ml corresponding resuspended in 0.82 ml 0.8% NaCl,
to 1Omg protein/ were 0.002% KCl, 0.002% KH PO,+ and 0.0917% K HP0 with or without the inhib&tor/s/. AT? content was determine8 af t er 10 min incubation at 25 C. 5Ofl CCCP and 25pg oligomycin/mg protein were used.
content mined.
in It
content alone the
lwhole
was found upon
presence
chondria
Ehrlich
of were
/W/,
both
which
of
Zajdela
decrease the
cells
than
tha-t
hepatoma
in in
the the
caused
CCCP and ol?gomycin ascites
exhibit
obtained
of
the
pronounced
of
for
cells
that
incubation
was more
results
ascites
/data
/Tab.3/. cells
shown/.
presence
of
/isolated
These
mitoactivity
observations
that
of
Zajdela
hepatoma
is
lost
Kiss
ACKNO*LL,EDGE!,USNTS: We are indebted to Nrs. H. Ferancov6 J. Vagnerova for excellent technical assistance.
preparation
of
in --
the
in
suggest
mitochondria
vivo
CCCP
Similar
ATPase
can stimulate
ATP
by incubation
uncoupler-sensitive not
intracellular
to
during
uncouplers
carcinoma
was deter-
ATPase
and this
allow
activity
capability
mitochondria. and
REFERENCES 1.
Kolarov.
J..
Ku.Zela.
$%.. KremnaskG.
. -. kedersen,
V..
and U
V--
P.L., /I~~$ Prog,.Exp. Tumor --- ~~, -,-, Karger, Base1 K., and Kuzela, !?., /1979/ Neoplasma 26, 691-696 3. &uciakov&, 4. Hayashi, J.-I., Yonekawa, H., Gotoh, O., and Tagashira, Y., /19f30/ Biochem. Biophys. Res. Commun. 92, 261-267 $., Kolarov, J., and Krempask?, V., /1973/ Neoplasma 5* Kuzela, 20, 623-630 2.
1207
Vol. 100, No. 3,15’Bl
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS
fSQ Lindberg, O., and Ernster, L., /1956/ Methods Biochem. Anal. 3, l-12 7. Out, T.A., Valeton, E., and Kemp, A., Jr. /1976/ Biochim. Biophys. Acta 440, 697-710 8. Youshok, W.D., /1971/ J. Biol. C&em, 246, 1607-1617 9. Christiansen, E.N., and Davis, E.J., /1978/ Biochim. Biophys. Acta 502, 17-25 10. Bieber, L.L., Petterson, B., and Lindberg, O., /1975/ Eur. J. Biochem. 58, 375-381 R.L., and Ghan, S.H.P., /1978/ J. Biol. Chem. 253, 11. Barbour, 12. 13. 14. 15. 16. 17.
%~~l~75& Kolarov Krempask? Hatalova I., Lakota, J an; Ui&zy V '/:6$7/ NeoplasAa'% 55o-563' Kiiarov, J., Khei:, $i, Krempask?, V.,'Lakota, J., and FEBS Lett. c6, 3?3-3?6 Ujh&zy, V., /1??8/ ?ojtzak, L., and Zaluska, H., /1967/ Biochem. Biophys. Res. Commun. 28, 7691 Morel, F., Laquin, G., Lunardi, J., Duszynski, J., and /lc74/ FEBS Lett. 3?, 133-l% Vignais, P.V., Biochemistry 5, 3887-3903 Chefurka, 'g., /lo66/ Kaschnitz, R.M., Hatefi, Y., and Morris, H.P., /lo76/ Biochim. Biophys. Acta 44o, 224-235
1208
8iOCHEMiCAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS Pages 1202-1208
16, 1981
RESPONSE OF MITOCHONDRIAL ISOLATED
LuciakGva
Research
March
TO UNCOUPLERS IN
and Stefan
Institute,
Slovak
Bratislava, Received
ACTIVITY
ORGANELLES AND WHOLE CELLS OF ZAJDELA HEPATOMA Katarina
Cancer
ATPase
Kuzela
Academy
of
Sciences,
Czechoslovakia
6,198l
SUMMARY. ATPase activity of coupled Zajdela hepatoma mitochondria was rendered uncoupler-sensitive by decreasing free fatty acids content in mitochondria or by preincubation of mitochondria with ATP prior to the addition of an uncoupler. The latter treatment resulted in an accelerated transport of ATP into the organelles. The effect of carbonylcyanide-m-chlorophenylhydrazone and oligomycin on the decrease of the AW content in whole Zajdela hepatoma cells indicated that the hepatoma mitochondrial ATPase is stimulated by uncouplers in vivo. The conclusion is that the uncoupler-insensitive ATPase zti%?y of coupled Zajdela hepatoma mitochondria is exhibited only by isolated organelles and results from a reduced ATP/ADP translocase activity. INTRODUCTION. mitochondria tumors
/for
The ATPase
/l/
similarly
rev.
see 2/
uncoupler-sensitivity with
ATP prior
effect
of
found
in
ATP is brain
explanation study hepatoma stimulated translocase.
is
the not
that
the
mitochondria ATPase
restored
if of
is
activity
Moreover,
several
tumor
still
the
@I 1981 by Academic Press, of reproducfion in any form
/2-4/.
/4/.
of
ATP to
eliciting
in
an activation
an evidence
is
presented
1202
but
is
also
Satisfactory
resides
Inc. reserved.
This
The results
addition
uncoupler
0006-291X/81/111202-07$01.00/0
incubated
mitochondria
missing.
of the
experimental
are
uncoupler
ABBREVIATIONS: BSA, bovine serum albumin; phenol; CCCP, carbonylcyanide-z-chlorophenylhydrazone;
Copyrighl All rights
other
hepatoma
However,
mitochondria
effect
before
Zajdela
mitochondria
the
to
liver
effect
of
coupled
uncoupler-insensitive.
restricted
this
of
that
addition
and fetal
of
indicate
to
is to
activity
of
this
Zajdela
uncouplerof ATP/ADP that
the
DNP, 2,4-dinitro-
Vol. 100, No. 3,198l
BIOCHEMICAL
mitochondrial
ATPase
is
by uncouplers0
stimulated
AND
activity
BIOPHYSICAL
in
whole
RESEARCH
cells
of
COMMUNICATIONS
Zajdela
hepatoma
?'ATLRIAI,S AWD L1ET-HQDS. rlaintenance and propagation of experimental tumors in ascitic form as IJell as the isolation of mitochondria from these tumors and from rat liver :.Tere performed as described elsewhere /5/. ATPase activity of mitochondria was measured by determination of inorganic phosphate liberated from ATP /6/ in a medium containing 5Om'F'IKCl, 1OmM TRIS-HCl, pH 7.5 and 6rnM ATP. Forward exchange of,ATP by mitochondria was measured essentially according to /7/. ATP content was de-termined in the neutralized RClO& extracts /8/ using commercial assay kit /Boehringer, Germany/. Incubation of mitochondria with carnitine and CoA was performed according to /o/. After the incubation the mitochondria were pelleted and resuspended in the preparation medium and assayed for the ATPase activity and free fatty acids content. Free fatty acids were extracted and determined as detailed in /lo/. RESULTS AND DISCUSSION. Zajdela
hepatoma
concentrations
the
mitochondria of
respectively/
normalized observed
if
uncoupler
of
/Fig.lA/.
It
uncoupler-stimulated be due
to the
a direct
proof
in
the
Zajdela
tumor
that
ATPase to
the
and Ekrlich
ascites
-stimulated
ATPase
of
in
to uncouplers
mitochondria
of
translocase
/12/
than
rat
of
which
by the
ATPase
Dixon
exhibit
activity
1203
role hepatoma
plot it
may
ATP hydrolysis
The rate-limiting
Using
low
However,
FIATPase
mitochondria
ATP hydrolysis
the
was not
ATP/ADP translocase'/l3/
/l/.
the
that
activity.
less
was
mitochondria
factor
contain
a
to
/ll/
tumor
after
/3/
prior
suggested
may be the
questionable.
inhibition
activity
of
CCCP,
mitochondria findings
rate-limiting
activity
by low
previous
activity
carcinoma
ATP/ADP translocase more
the
mitochondria
coupled
only
to the
ATP/ADP translocase
mitochondria
amount
becomes
our
was already
reduced
hepatoma
atractyloside
the
ATPase
an elevated
thus
with
ATP was added
of
to 15).1MDNP or O.l@Y
/up
ATP was added
In accord response
activity
was stimulated
uncouplers
providing
uncoupler.
The ATPase
of
given. and liver uncouplerof
mitochondria carboxy-
was demonstrated
Vol. 100, No. 3,198l
8lOCHEMlCAL
AND
8lOPHYSKAL
RESEARCH
COMMUNICATIONS
Fig.1. Stimulation of ATPase activity of Zajdela hepatoma mitochondria by DNP under various conditions. A- ATP /substrate, 6mM/ was added to the mitochondria 3 min before /o/ or 5 min after /e/ the uncoupler. The preincubation withoATP prior to the addition of the uncoupler was performed at 0 C and that with uncoupler before the addition of ATP at 30°C. B- ATPase activity of Zajdela hepatoma mitochondria prepared in the absence /o/ or in the presence /m/ of 0.1% BSA. ATP was added to the mitochondria after the uncoupler as detailed in A. C- Untreated mitochondria /a/ and organelles preincubated with carnitine and CoA /A/ or preincubated under the same conditions without carnitine and CoA except that the preparation medium was used /A/, were assayed for the ATPase activity. The uncoupler was added to the mitochondria before ATP as detailed in A.
that
the
hepatoma translocase
uncoupler-stimulated and
rat activity
ATPase
liver
mitochondria
activity is
of
limited
both
Zajdela
by ATP/ADP
/Fig.2/.
0
a2 cartloKyatr*ctyloside bvrd I rng protein)
Fi..2. Inhibition of the ATFase activity of rat ZaJde a hepatoma mitochondria by carboxyatractyloside, The inhibition was determined at maximal stimulation ATPase activity by DNP. V is expressed as pmoles of zed /min/mg protein. Rat liver mitochondria in the lOOpI DNP /e/, Zajdela hepatoma mitochondria in the lOp?l DNP /o/.
4-
1204
liver
and Dixon plot. of the ATP hydrolypresence of presence of
8lOCHEMlCAl
Vol. 100, No. $1981
Table
1. Effect
AND
8lOPHYSlCAl
of various free fattv
the
RESEARCH
COMMUNICATIONS
treatments of mitochondria acids content.
;i;;I;toma 1 Free fatty
acids
on
upon treatment
Control values /lOO$/ for rat liver mitochondria 7.3+0.8 nmol/mg protein and for Zajdela hepatoma mitochondriz 18.922.3 nmol/mg protein. Mitochondria were incubated 3 min with 6mM ATP at O°C or with carnitine and CoA. After the incubation mitochondria were pelleted, resuspended in the preparation medium and free fatty acids and ATPase activity were determined. BSA /O.l$/ was included in the preparation medium.
Free
fatty
ATP/ADP
acids
translocase
mitochondria dria
of
with
data
in
tumor
/14/.
liver
/Tab.l/.
demonstrating
the
sensitive
to
However,
as detected
into
Zajdela
The rate depend free
of
to
fatty
order
acids
the
initial
mitochondria
of
inhibit
into the
rat
of
of
ATP/ADP
1205
of
mitochondria acids the
ATPase
activity.
exchange
of
the
ATP
ATP transport higher
uncoupler
mitochondria
when /Tab.2/.
did
ATP and uncoupler.
translocase
fatty
and CoA
3 times
the
ATPase
free
under
to
liver
of
by ATP even
forward
prior
acids
fatty
rate
addition the
fatty
The free
was about
mitochondria
of ATP transport on the
Tab.l/.
uncoupler-stimulated
CCCP, the
the
agreement
content
hepatoma
affected
mitochon-
stimulation
the
Zajdela
by measuring
hepatoma
ATP was added
of
/Fig.lB,C;
the
in
by BSA or carnitine
significantly
eliciting
in
of free
a reduced
of
hepatoma
than is
amount
Decreasing
activity
uncouplers
presence
higher
inhibitors
Zajdela
observation
mitochondria
conditions
the
/ll/.
ATPase
was not
times
exhibiting
in hepatoma
rendered
in
an elevated
mitochondria
content
This
occuring
content
to be 2.6
by uncouplers
acids
naturally Their
was found
rat
activity
in
represent
competetively
not As
BIOCHEMICAL
Vol. 100, No. 3,19Bl
Table
BIOPHYSKAL
RESEARCH
COMMUNICATIONS
2. Rate of the ATP transport into Zajdela hepatoma rat Ilver mitochondria in the presence of CCCP.
Source
liver
Zajdela
and
Initial rate of ATP transporg /nmOl ATP/min/mg protein at 0 C/ ATP added before CCCP ATP added after CCCP /A/ /w
of
mitochondria rat
AND
hepatoma
2.96
2.48
1.86
0.52
/A/ ATP /lmN/ was added to the mitoch Qd ia 10 min before 2w CCCP. After further 5 min incubation! * CTATP /final specific radioactivity 1000 cpm/nmol/ was added. /IV Kitochondr& were preincubated for 5 min with 2p CCCP then ATP /lmM/ and[ C]ATP /final specific radioactivity 1000 cpm/nmo l/ were added simultaneusly. The translocation was l25W carboxyatractyloside 10 min after the addition and mitochondria were separated by rapid centrifugation.
/15/
it
may be supposed
chondria
results
locase
without
A necessary
in
that
a removal
affecting is
of free
concentrations
of
these
total
that
fatty
addition
of
their
corollary
distribution
the
uncoupler
inhibitors amount
such
acids
of ATP to
the
from
in
mitothe
mitochondria.
an intrsmitochondrial can be prevented
added
to
the
trans-
reby higher
mitochondria
before
ATP. Accumulation pase
treatment
a loss
of
et
/17/
al.
isolated
using
the
of mouse
liver
mitochondria
medium data
a milder their
ATPase
possibility
data
whether
activity
the
activity
this
by uncouplers of
activity
was sensitive
ATPase
effect
study of
the to
give
Zajdela in --
CCCP and oligomycin
1206
Kaschnitz
and BSA in
in
by
previously
ATPase
disruption
can be stimulated
/16/.
rnitochondria
presented
the
accompanied
activity
when tumor
cell
or by phospholi-
is
uncoupler-insensitive
and the
question
by ageing
ATPase
that
exhibit
rnitochondria this
acids
reported
to
These
fatty
uncoupler-sensitive
reported
ration
of free
vivo.
were prepa-
uncouplers. raise
to
hepatoma To check on the
ATP
BIOCHEMICAL
Vol. 100, No. 3,198l
Table
3. Effect
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
of oligomycin and CCCP on ATP content Zajdela hepatoma cells,
Additions
ATP content /nmol/ml packed
none
in
cells/
1112.8
oligomycin+CCCP
488.9
CCCP
263.5
Packed cells /0.18 ml corresponding resuspended in 0.82 ml 0.8% NaCl,
to 1Omg protein/ were 0.002% KCl, 0.002% KH PO,+ and 0.0917% K HP0 with or without the inhib&tor/s/. AT? content was determine8 af t er 10 min incubation at 25 C. 5Ofl CCCP and 25pg oligomycin/mg protein were used.
content mined.
in It
content alone the
lwhole
was found upon
presence
chondria
Ehrlich
of were
/W/,
both
which
of
Zajdela
decrease the
cells
than
tha-t
hepatoma
in in
the the
caused
CCCP and ol?gomycin ascites
exhibit
obtained
of
the
pronounced
of
for
cells
that
incubation
was more
results
ascites
/data
/Tab.3/. cells
shown/.
presence
of
/isolated
These
mitoactivity
observations
that
of
Zajdela
hepatoma
is
lost
Kiss
ACKNO*LL,EDGE!,USNTS: We are indebted to Nrs. H. Ferancov6 J. Vagnerova for excellent technical assistance.
preparation
of
in --
the
in
suggest
mitochondria
vivo
CCCP
Similar
ATPase
can stimulate
ATP
by incubation
uncoupler-sensitive not
intracellular
to
during
uncouplers
carcinoma
was deter-
ATPase
and this
allow
activity
capability
mitochondria. and
REFERENCES 1.
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V--
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Vol. 100, No. 3,15’Bl
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%~~l~75& Kolarov Krempask? Hatalova I., Lakota, J an; Ui&zy V '/:6$7/ NeoplasAa'% 55o-563' Kiiarov, J., Khei:, $i, Krempask?, V.,'Lakota, J., and FEBS Lett. c6, 3?3-3?6 Ujh&zy, V., /1??8/ ?ojtzak, L., and Zaluska, H., /1967/ Biochem. Biophys. Res. Commun. 28, 7691 Morel, F., Laquin, G., Lunardi, J., Duszynski, J., and /lc74/ FEBS Lett. 3?, 133-l% Vignais, P.V., Biochemistry 5, 3887-3903 Chefurka, 'g., /lo66/ Kaschnitz, R.M., Hatefi, Y., and Morris, H.P., /lo76/ Biochim. Biophys. Acta 44o, 224-235
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