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Affinity modification of creatine kinase and ATP-ADP translocase in heart mitochondria: Determination of their molar stoichiometry
Vol.
134,
January
No. 14,
1, 1986
BIOCHEMICAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
1986
Pages
359-366
AFFINITY MODIFICATION OF CREATINE KINASE ATP-ADP TRANSLOCASE IN HEART MITOCHONDRIA: DETERMINATION OF THEIR MOLAR STOICHIOMETRY
AND
A.Y.
and
Bioenergetics, of 3 Cherepkovskaya
Laboratory Cardiology, Received
Kuznetsov
November
29,
Y.A.
Saks
USSR Street
15a
Research , Moscow
Center 121552,
for USSR
1985
dialdehyde analogs of ADP or ATP (oADP and Oxidized oATP) were shown to inhibit irreversibly adenine nucleotide translocator (T) and creatine kinase (CK) in heart mitochondria. with Inactivation of T and CK was parallel carboxyatractyloside - sensigive and (ADP + phosphocreatine) - sensitive incorpo ation of o[ H]ADP into mitochondria, respectively. o[ 5 H]ADP incorporation sensitive to CAT or ADP+phosphocreatine was used to determine T and CK contents in ,mitochondria. T content in from rat, cardiac mitochondria rabbit, and chicken was dog, calculated to be 2.6 - 2.9 moles/mole cyt.aa The same value of Tlcyt .aa3 ratio was found in liver mitoc 2’ ondria with lower cytochrome aa content. In all types of cardiac mitochondria CK content was fzund to be 2.4 - 2.6 moles/mole cyt.aa . The data show that T and CK are present in molar ratio 1:l in3all types of 0 1986 Academic Press, Inc. cardiac mitochondria.
ATP-ADP coupled
translocase
in
heart
mitochondria
phosphocreatine
proteins
to in
there
are
molar
ratio very
nucleotide
such
reagent number
of
using
as In
(4).
oADP
are
content
the
irreversible
In
of the
have ATP
present inhibitors
labelled
of
is an
a
rare
increasing
investigated
ADP
work
adenine
with
been or
kinase
of
hand,
both
However,
which other
is
creatine
determined
enzymes
the
of
(3).
a II d
the
of
presence
of
on
derivatives (5-6).
oATP
the
determination
usually
years,
cycle interaction
[ 35S]carboxyatractyloside
binding
2,3-dialdehyde
and
is
recent
nucleotide
correspondingly)
on
functionally
initial
mitochondria
mitochondria,
translocase
inhibitors
heart
are
effective
supposes
in
data
the
Their
one
I:1
few
heart
in
if
kinase
form
(1,2).
explain
only
content
and
shuttle
easy
most
creatine
and
(oATP
we have creatine
by
and
oATP,
shown
that
kinase 0006-291X/86
359
and $1.50
Copyrighl 0 1986 by Academs, Press, Inc,. AN rights of reproducfmn in any form resenwi,
Vol.
134,
No.
ATP-ADP used cardiac
to
BIOCHEMICAL
1, 1986
translocase
,
determine
molar
and
these content
AND
BIOPHYSICAL
compounds of
the
RESEARCH
have proteins
been
in
COMMUNICATIONS
successfully question
in
mitochondria.
MATERIALS
AND METHODS
Mitochondria were isolated from the heart muscle as described earlier ( 2 ) . Liver mitochondria were isolated according to ref. were obtained by a method of ( 1 1. Mitoplasts Schnaitman and Greenwal t of the inner ( 8 1. The intactness mitochondrial membrane was tested by inhibition of the respiratory rate in state 3 more than 85% by carboxyatractyloside 50 pM. Creatine kinase activity was determined as (CAT) indicated earlier ( 2 ). Oxygen consumption rate was determined polarographically using a Yellow Spring Clarck electrode ( 2 ). Cytochrome aa content was determined spectrophotometrically at wavelen th r 605-630 nm using an extinction coefficient value 24 mM -’ cmpBs ( 9 ) oATP and oADP synthesized by a per iodate method (10 ) and purified on Ieigphadex G-10 column. The final contentfation of oATP and oADP was determined at 258 E=14.9 mM cm nm, ( 11 I. Activity of ATP-ADP translocase was determined by a method described by Chan and Barbour ( 12 ). Inactivation of ATP-ADP translocase in the presence of 5-200gM oADP or oATP was assessed by determination of changes in the state 3 consumption rate or directly by changes in the rate of [ %yKF uptake. Inactivation of creatine kinase by oATP or oADP was determining detected by changes in the enzyme activity after incubation of mitochondria (lmg/ml) in a medium containing 20 mM HEPES-Na, pH 5.5-7.5 , 20 mM Tris-HCl, pH 7.5-9.0 , 3 mM Mg acetate, 0.05-1.5 mM inhibitor. After definite time intervals of incubation (O-60 min) samples were withdrawn, diluted 100-200 times by activity assay medium and enzyme activity was determined. Binding of o[~H]ADP to translocase and creatine kinase in heart mitochondria was determined in a medium containing 20 mM HEPES-Na, pH 7.0, 3 mM Mg acetate, 10 mkg/ml oligomycin, 0.3 mg incubation (1.2 mg/ml) mitochondria and 0.7 mM o[~H]ADP. After the mixture was filtered through Millipore filters for O-40 min. (0.45 mkm), filters were washed three times by a cold incubation dried and dissolved in 10 ml of dioxane scintillator for buffer, counting in “LKB Rack Beta 1 15” counter. For radioactivity specific binding of o[ ?3H]ADP with adenine determination of translocase the experiments were repeated in presence nucleotide in radioactivity was taken to of 50 PM CAT and th 8 difference show the amount of o[ H]ADP bound to ATP-ADP translocase (see the “Results” section). Similarly , to determine the specific binding in total with creatine kinase in mitochondria a difference o[~H]ADP binding and that in the presence f 0.5 mM MgADP and 15 mM phosphocreatine was determined. o[ s H]ADP binding with kinase determined after isolated and purified creatine was incubation of enzyme (0.5 mg/ml) with 1 mM of reagent for 35 min gelat 30’ C and after removal of an excess of the reagent by filtration on Sephadex-G25 fine . Removal of creatine kinase from the membrane of mitoplasts was performed by incubation of mitoplasts (5 mg/ml) for 30 min in a medium containing 0.125 M KCl, 20 mM HEPES-Na, pH 7.4 , 0.3 mM 20 mM ADP, 4’ C. dithiothreitol, 1 mg/ml bovine serum albumin , The mixture after incubation was diluted by solution containing 360
Vol.
134,
No.
BIOCHEMICAL
1, 1986
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
10 mM Tris-HCl, pH 7.4, 0.2 mM EDTA, 1 mg/ml M sucrose, and centrifuged for 10 min at 10 000 g. The bovine serum albumin procedure was repeated twice and the pellet obtained was resuspended to a concentration of 50-80 mg/ml. Creatine kinase was isolated and purified from rat heart mitochondria according to a procedure discribed by ( 13 ). Materials Enzymes used in the coupling enzyme assays, -_-------. nucleotides, creatine, phosphocreatine, HEPES,bovine serum albumine, sucrose, dithiothreitol, malate, EGTA, trypsin, trypsin were purchased from “Sigma”,USA. Digit nin, EDTA, inhibitor, glutamate were from “Serva” , FRG and [ 8 H]ADP from Tris, “Amersham” , England. 0.3
RESULTS Incubation ADP
or
ATP
nucleotide
rat
heart
the
uptake
of
mitochondria
resulted
in
and
mitochondria
with
of
[ 3H]ADP
inhibition
could
be
respiration
(Fig.1)
.
dependence
of
state
The
character
interaction
of
with
rapid
translocase
the
AND DISCUSSION
less
shows
than
in
dependences and
double
that
10 min
adenine
of
at
30’
state
3
plots
the
concentration.
a competitive be
C This
of
on ADP
may
of
control.
reciprocal
rate
of
incubation
inhibition
shows
oADP
for 1%
from
both
After
oADP
3 respiration
ADP
between
of
seen
Fig.1
of
kinase.
2OOpW
was
derivates
inactivation
creatine
easily
t hese
2,3-dialdehyde
type
taken
to
of
indicate
0.275
0.165
0.065 0
-1 l/tROPl,mn
Fig.1.
The
double
reciprocal
of different (indicated respiration
the at
rate
uncoupled
state
in in
presentation of the 3 respiration upon ADP oADP concentration in mM at straight lines). the presence of ADP was
respiration.
361
dependence
of
concentration
the The corrected
rate
medium of for
Vol.
134,
No.
binding
of
oADP
nucleotide .
Fig.
1
were
was
parameter
nucleotide When
BIOPHYSICAL
binding app. Km values for
inhibitor
obtained
giving
for
was
oATP
RESEARCH
sites
in
adenine
obtained
from
concentration,
= 0.065
(oADP)
found
of
ADP
(oADP)
Ki
COMMUNICATIONS
similar
mM.
a The
value
experiments
to
be
mM.
inactivation
at
Pig.2.
The of
the
activity
first
order
was
of
the
different
mitochondrial oADP
the
time
of
the
reaction.
The
depend
to
enzyme’
a
on
inhibitor
enzyme
(E inact.
rate
with
pK - 6.9 of
creatine
kinase
E’I
and
phosphocreatine
the
enzyme,
Similar
be
most
this
‘MgADP
be
involved
purified
radioactive
label
to
suppose
the ( %Yz)
value
of
noncovalent of
),
an
with these
a data
complex
inactive
mM)
against was
which the
formation
( 15 of
enzyme into
the
was
was
form
of
that
some
leads shows
creates
of the
transition
to
also
inactivation
a mixture
that its
by
MgADP
(0.5
“working”
mM)
state
state
of
complex
). inactivation
parallel
with and
362
on
protonation
creatine
protein,
dependent
revealed
Fig.2
protected
aitochondrial the
whose
inactivation.
characteristics
of
us
( 14
dependence
effective (15
Inactivation
of
inactivation
of
including
E’creatine’POS
logarithm
Finact
kinase
enzyme
could
-2
the
to
formation
4
may
the
and
substrates,
soluble,
G
study
acceleration
of
l/[oADP]
formation
before
creatine
of
Quantitative
groups
of
the
1:
.E + I The
the
in
on
half-inactivation
According
(E.1)
-
of
shown
dependent
allows
time
linearly
probability
is
dependence
reaction
ordinate-intercept.
point
concentrations wzis
linear
kinase
creatine
inactivation
oADP;
the
to
positive
heart
of
on
found
of
rate
concentration
PH.
AND
against
Time-course
the
the
plotted
line
this
0.14
to
translocase.
straight of
BIOCHEMICAL
1, 1986
complete
were kinase
seen was
incorporation inactivation
when used. of
the was
Vol.
134.
No.
8lOCHEMlCAL
1, 1986
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
100 so 60 70 60 50 fI 40 t; : 30 : 20
1.36 ’ 0.92 10
0
pig.2.
when
dimeric
2
enzyme Figure
with
adenine
shows
minutes
kinase
were
completely
cyt.aa
of
mitochondria.
50
incorporation
(Fig.3).
binding
to
difference, B cat
in
the
translocase cyt
.aa 3’
consistent
Since
This with
of
T was
all
creatine
CAT was
time
translocase
level ADP
of other
to
of
363
to
proteins
in
inhibit
label nucleotide
value
total
o [3H]ADP
the
to
be
equal
to
content
show
(18).
the
of
content
of
mole/mole
mitochondria Table
t 11e
binding
2.6 -2.9 in
per
incorporation
maximal
taken
estimations
or3H]ADP
binding
was
translocase
of
creatine
decreased
the is
and
dependent. and
16 moles
shown
),
CAT)
found
of
kinase
and
numerous
= T (Btot
presence
value
inactivation
This
( 17
- Beat
(T).
Both
carboxyatractyloside
translocase Btot
method.
about
incorporated.
,,,uM
mole
mitochondria
when
to
1
into
irreversible
incubation
binding
with
o[~H]ADP
and
inhibited,
o[ 3H]ADP
reflects
and
translocase
were
3
of
were
bound
) ).
filtration
incorporation 30-40
was
incorporation
a Millipore
After
of
( 16
TIiiE.flIN
of creatine kinase in The numbers show oADP 10 mW ADP was added; +ADP+ were added. The reaction “Material and Methods”. was 1.2 mg/ml , 21’C.
or3H]ADP
000
nucleotide
o[~H]ADP
mol
of
(M.W.=82 3a
determined
moles
, 40
30
Kinetics of inactivation mitochondria oADP. by concentration in q M. +ADP - 2aM ADP and 15 nM PCr PCr mixture iS given in Mitochondrial concentration
observed
of
20
1 shows
is T
Vol. 134, No. 1, 1986
0
BIOCHEMICAL
20
10
RESEARCH COMMUNICATIONS
30
TIME,MIN Pig.3.
AND BIOPHYSICAL
A - Kinetics of incorporation of o[~H]ADP into rat heart ritochondria. 1 - total incorporation: 2 difference between total incorporation and that in the presence of 50&M carboxyatractyloside; 3 difference between total incorporation and that in the presence of 0.5 l N ADP and 15 111 PCr. Inhibitor concentration in all cases was 0.7 eM. 30°C. 8 - Linear relationship between creatine kinase activity of rat heart mitochon ria and (ADP + PCr) B sensitive incorporation of o[ HIADP (see curve 3 in Pig.3A).
Table
1.
Translocase eitochondria,
and isolated
Cyt.aa naoles protein
creatine from different
kinase
contents. sources
activity, IU/eg
CK, mol/aol cyt .aa3
T, aol/Bol cyt .aa3
0.445i.o.09
4.5*0.5
2
35~0.25
2.65~0.25
0.353*0.07
3.0*0.3
2
43tO.26
2.70i0.2
2.9f0.3
2
23kO.19
2.80f0.20
0.354%0.06
0.86tO.2
2
60~0.34
2.90+_0.25
Rat liver aitochondria
0.246t0.04
0.00
0
00
2.60f0.25
,Rat heart mltoplast
0.360*0.06
2.5f0.3
2
02f0.3
2.3020.30
0.370*0.05
0.065iO.01
0.2OiO.03
2.36t0.30
Rat heart mitochondria Rabbit ritochondria
CK
? ag
heart
Dog heart mitochondria Chicken aitochondria
Rat
heart
heart
q itoplast incubated in KCl+ADP Mean
values
and
SD
are
given
for
364
four
experiments.
in
Vol.
134,
for
No.
BIOCHEMICAL
1, 1986
mitochondria
the
from
T/cyt.aa3 3a
Fig. which
completely
Fig.2)
decreases
in the
show
ratio
was
found
shows
also
that
the
.
of In
lower
ratio
is
Fig.
decrease
in
phosphocreatine mitochondria,
the
moles/mole
values
of
that
in if
treatment. content
determined
in
using
SH-reagents
chicken
heart
its
ADP
that
much
lower
effects
of
content the
for
work
( 20 1.
It
activity
is
types (Tabl.
Table
mitoplast
for
determination
kinase
+
to
Table was
membrane creatine be
highly
mitochondria determined
that to
in
value
of
in
notice content
mitochondria also
ADP
1.
same
proved
see
+
BCKmit)
from
cardiac
the
2.4-2.6
the
removed
1, 365
an ADP
the
of
oADP
additive.
in
kinase
a
When
= 0;
creatine
has
complete
as
interesting
mM
when
also
were
with
15
at
CKmit.
agrees
in
to
and
given
creatine
present
other
CAT
mitochondria of
BCKmit
CAT-treated
(determined
method
mitochondria
from
was
the
to
related
cyt.aa3.
value
was
taken
against
B CKmit.
kinase
was
( ATP
and
are
of3HIA”P
level
linearly
binding
is
and
translocase is
The
equilibrium
study
o[~H]ADP
cardiac
ADP
to
mitochondria
in
mM
an
used
contents
Thus,
,
This
1.
preparations
creatine
The
of
CK
liver
specific.
differ
on
mitochondrial
determined
kinase
The
3’
kinase 0.5
BCKmit
was
mixture
different
of
(see
mitochondria.
(BpCr,ADp
protect
that
maximal
cyt.aa
phosphocreatine
KC1
shows
kinase
phosphocreatine)
( 19 not
mixture
The
into
creatine kinase activity, max BCKmit. = 2.4-2.5 moles/mole
inactivation
by
does
phosphocreatine
+
establishes
low
mitochondria
creatine
creatine
kinase
T) 3b
to
all
ADP
of
presence
very
to
binding.
mixture
and
label
COMMUNICATIONS
constant.
= BCKmit ADP
creatine
affinity
1 shows
the
of
the
phosphocreatine, ADP/ATP
be
incorporation
the
RESEARCH
For
inactivation
presence
mitochondria.
the
to
- BPCr,ADP
binding
BIOPHYSICAL
sources.
prevents
Btot
binding
different
o[~H]ADP
difference,
AND
ref.
by that
in
does
not
in ( 21
spite )).The
Vol.
134,
No.
data
BIOCHEMICAL
1, 1986
of
Table
present
in
1 show
(Table
phosphocreatine In
shuttle conclusion
effectively proteins in
alterations creatine
for
of in
kinase
consistent
all
of
with
the
hypothesis
(or
oATP)
oADP
determination
of
the
content
may
be
mitochondrial
are cardiac of
). that
This
kinase
types
show
different
( 21
is
in
COMMUNICATIONS
creatine
results
mitochondria.
cases
This
RESEARCH
and
amounts
( 1,2,3 , the
used in
the
1).
BIOPHYSICAL
translocase
equimolar
almost
mitochondria
that
AND
method
pathology enzymes,
of
muscle including
of
ADP
especially which
can
be
binding important
may
translocase
involve and
).
REFERENCES 1. 2. 3. 4. 5. 6. 7. 8. 9. 10 11 12 13 14 15 16 17 18 19 20
21
V.A., Kupriyanov V.V., Elizarova G.V., Jacobus W.E. (1980) J.Biol.Chem. 255, 755-763. Jacobus W.E., Saks V.A. (1982) Arch.Biochem.Biophys. 222, 167-178. Saks V.A., Kuznetsov A.V., Kupriyanov V.V., Miceli M., Jacobus W.E. (1985) J.Biol.Chem. 250, 77577764. Riccio P., Scherer B., Klingenberg M. (1973) FEBS Lett. 3l, 11-14. DeMelo D.F., Satre M., Vignais P.V. (1984) FEBS Lett. 162, 101-106. Tsai P.K., Hogenkamp H.P.C. (1983) Arch. Biochem. Biophys. 226 --- 9 276-284. Johnson D., Lardy H.A. (1967) Methods Enzymol. 10, 94-96. Greenwalt J.W. (1968) J.Cell.BiolT-38, 158Schaitman C., 175. Van Gelder B.F. (1966) Biochim.Biophys.Acta 118 1 36-46. --(1976) Easterbrook-Smith S.B., Wallace J.C., Keech D.B. Eur.J.Biochem. 62, 125-130. Hansske F., Sprinzl M., Cramer F. (1974) Bioorg.Chem. 2, 367-376. Barbour R.L., Ribaudo J.. Chan S.H. (1984) J.Biol.Chem. 252, 8246-8251. Gerok W. (1983) J.Biochem. 94. 1247Blum H.E., Deus B., 1257. Meloche H.P. (1967) Biochemistry 5, 2273-2280. Milner-White E.J., Kelly I.D. (1976) Bi0chem.J. l..x, 23-32. Roberts R., Grace A.M. (1980) J.Biol.Chem. 255, 2870-2877. Klingenberg M., Appel M. (1980) FEBS Lett. 112, 195-199. Vignais P.V. (1976) Biochim.Biophys.Acta 456, l-38. (1977) J.Mol.Cell.Cardiol. 2, Altschuld R.A., Brierley G.P. 875-884. Kupriyanov V.V., Elizarova G.V., Saks V.A. (1981) Biokhimiia 930-941. 46, Bennet V.D., Hall N., DeLuca M., Suelter C.H. (1985) Arch. Biochem.Biophys. 240, 380-391. Saks
366
134,
January
No. 14,
1, 1986
BIOCHEMICAL
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
1986
Pages
359-366
AFFINITY MODIFICATION OF CREATINE KINASE ATP-ADP TRANSLOCASE IN HEART MITOCHONDRIA: DETERMINATION OF THEIR MOLAR STOICHIOMETRY
AND
A.Y.
and
Bioenergetics, of 3 Cherepkovskaya
Laboratory Cardiology, Received
Kuznetsov
November
29,
Y.A.
Saks
USSR Street
15a
Research , Moscow
Center 121552,
for USSR
1985
dialdehyde analogs of ADP or ATP (oADP and Oxidized oATP) were shown to inhibit irreversibly adenine nucleotide translocator (T) and creatine kinase (CK) in heart mitochondria. with Inactivation of T and CK was parallel carboxyatractyloside - sensigive and (ADP + phosphocreatine) - sensitive incorpo ation of o[ H]ADP into mitochondria, respectively. o[ 5 H]ADP incorporation sensitive to CAT or ADP+phosphocreatine was used to determine T and CK contents in ,mitochondria. T content in from rat, cardiac mitochondria rabbit, and chicken was dog, calculated to be 2.6 - 2.9 moles/mole cyt.aa The same value of Tlcyt .aa3 ratio was found in liver mitoc 2’ ondria with lower cytochrome aa content. In all types of cardiac mitochondria CK content was fzund to be 2.4 - 2.6 moles/mole cyt.aa . The data show that T and CK are present in molar ratio 1:l in3all types of 0 1986 Academic Press, Inc. cardiac mitochondria.
ATP-ADP coupled
translocase
in
heart
mitochondria
phosphocreatine
proteins
to in
there
are
molar
ratio very
nucleotide
such
reagent number
of
using
as In
(4).
oADP
are
content
the
irreversible
In
of the
have ATP
present inhibitors
labelled
of
is an
a
rare
increasing
investigated
ADP
work
adenine
with
been or
kinase
of
hand,
both
However,
which other
is
creatine
determined
enzymes
the
of
(3).
a II d
the
of
presence
of
on
derivatives (5-6).
oATP
the
determination
usually
years,
cycle interaction
[ 35S]carboxyatractyloside
binding
2,3-dialdehyde
and
is
recent
nucleotide
correspondingly)
on
functionally
initial
mitochondria
mitochondria,
translocase
inhibitors
heart
are
effective
supposes
in
data
the
Their
one
I:1
few
heart
in
if
kinase
form
(1,2).
explain
only
content
and
shuttle
easy
most
creatine
and
(oATP
we have creatine
by
and
oATP,
shown
that
kinase 0006-291X/86
359
and $1.50
Copyrighl 0 1986 by Academs, Press, Inc,. AN rights of reproducfmn in any form resenwi,
Vol.
134,
No.
ATP-ADP used cardiac
to
BIOCHEMICAL
1, 1986
translocase
,
determine
molar
and
these content
AND
BIOPHYSICAL
compounds of
the
RESEARCH
have proteins
been
in
COMMUNICATIONS
successfully question
in
mitochondria.
MATERIALS
AND METHODS
Mitochondria were isolated from the heart muscle as described earlier ( 2 ) . Liver mitochondria were isolated according to ref. were obtained by a method of ( 1 1. Mitoplasts Schnaitman and Greenwal t of the inner ( 8 1. The intactness mitochondrial membrane was tested by inhibition of the respiratory rate in state 3 more than 85% by carboxyatractyloside 50 pM. Creatine kinase activity was determined as (CAT) indicated earlier ( 2 ). Oxygen consumption rate was determined polarographically using a Yellow Spring Clarck electrode ( 2 ). Cytochrome aa content was determined spectrophotometrically at wavelen th r 605-630 nm using an extinction coefficient value 24 mM -’ cmpBs ( 9 ) oATP and oADP synthesized by a per iodate method (10 ) and purified on Ieigphadex G-10 column. The final contentfation of oATP and oADP was determined at 258 E=14.9 mM cm nm, ( 11 I. Activity of ATP-ADP translocase was determined by a method described by Chan and Barbour ( 12 ). Inactivation of ATP-ADP translocase in the presence of 5-200gM oADP or oATP was assessed by determination of changes in the state 3 consumption rate or directly by changes in the rate of [ %yKF uptake. Inactivation of creatine kinase by oATP or oADP was determining detected by changes in the enzyme activity after incubation of mitochondria (lmg/ml) in a medium containing 20 mM HEPES-Na, pH 5.5-7.5 , 20 mM Tris-HCl, pH 7.5-9.0 , 3 mM Mg acetate, 0.05-1.5 mM inhibitor. After definite time intervals of incubation (O-60 min) samples were withdrawn, diluted 100-200 times by activity assay medium and enzyme activity was determined. Binding of o[~H]ADP to translocase and creatine kinase in heart mitochondria was determined in a medium containing 20 mM HEPES-Na, pH 7.0, 3 mM Mg acetate, 10 mkg/ml oligomycin, 0.3 mg incubation (1.2 mg/ml) mitochondria and 0.7 mM o[~H]ADP. After the mixture was filtered through Millipore filters for O-40 min. (0.45 mkm), filters were washed three times by a cold incubation dried and dissolved in 10 ml of dioxane scintillator for buffer, counting in “LKB Rack Beta 1 15” counter. For radioactivity specific binding of o[ ?3H]ADP with adenine determination of translocase the experiments were repeated in presence nucleotide in radioactivity was taken to of 50 PM CAT and th 8 difference show the amount of o[ H]ADP bound to ATP-ADP translocase (see the “Results” section). Similarly , to determine the specific binding in total with creatine kinase in mitochondria a difference o[~H]ADP binding and that in the presence f 0.5 mM MgADP and 15 mM phosphocreatine was determined. o[ s H]ADP binding with kinase determined after isolated and purified creatine was incubation of enzyme (0.5 mg/ml) with 1 mM of reagent for 35 min gelat 30’ C and after removal of an excess of the reagent by filtration on Sephadex-G25 fine . Removal of creatine kinase from the membrane of mitoplasts was performed by incubation of mitoplasts (5 mg/ml) for 30 min in a medium containing 0.125 M KCl, 20 mM HEPES-Na, pH 7.4 , 0.3 mM 20 mM ADP, 4’ C. dithiothreitol, 1 mg/ml bovine serum albumin , The mixture after incubation was diluted by solution containing 360
Vol.
134,
No.
BIOCHEMICAL
1, 1986
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
10 mM Tris-HCl, pH 7.4, 0.2 mM EDTA, 1 mg/ml M sucrose, and centrifuged for 10 min at 10 000 g. The bovine serum albumin procedure was repeated twice and the pellet obtained was resuspended to a concentration of 50-80 mg/ml. Creatine kinase was isolated and purified from rat heart mitochondria according to a procedure discribed by ( 13 ). Materials Enzymes used in the coupling enzyme assays, -_-------. nucleotides, creatine, phosphocreatine, HEPES,bovine serum albumine, sucrose, dithiothreitol, malate, EGTA, trypsin, trypsin were purchased from “Sigma”,USA. Digit nin, EDTA, inhibitor, glutamate were from “Serva” , FRG and [ 8 H]ADP from Tris, “Amersham” , England. 0.3
RESULTS Incubation ADP
or
ATP
nucleotide
rat
heart
the
uptake
of
mitochondria
resulted
in
and
mitochondria
with
of
[ 3H]ADP
inhibition
could
be
respiration
(Fig.1)
.
dependence
of
state
The
character
interaction
of
with
rapid
translocase
the
AND DISCUSSION
less
shows
than
in
dependences and
double
that
10 min
adenine
of
at
30’
state
3
plots
the
concentration.
a competitive be
C This
of
on ADP
may
of
control.
reciprocal
rate
of
incubation
inhibition
shows
oADP
for 1%
from
both
After
oADP
3 respiration
ADP
between
of
seen
Fig.1
of
kinase.
2OOpW
was
derivates
inactivation
creatine
easily
t hese
2,3-dialdehyde
type
taken
to
of
indicate
0.275
0.165
0.065 0
-1 l/tROPl,mn
Fig.1.
The
double
reciprocal
of different (indicated respiration
the at
rate
uncoupled
state
in in
presentation of the 3 respiration upon ADP oADP concentration in mM at straight lines). the presence of ADP was
respiration.
361
dependence
of
concentration
the The corrected
rate
medium of for
Vol.
134,
No.
binding
of
oADP
nucleotide .
Fig.
1
were
was
parameter
nucleotide When
BIOPHYSICAL
binding app. Km values for
inhibitor
obtained
giving
for
was
oATP
RESEARCH
sites
in
adenine
obtained
from
concentration,
= 0.065
(oADP)
found
of
ADP
(oADP)
Ki
COMMUNICATIONS
similar
mM.
a The
value
experiments
to
be
mM.
inactivation
at
Pig.2.
The of
the
activity
first
order
was
of
the
different
mitochondrial oADP
the
time
of
the
reaction.
The
depend
to
enzyme’
a
on
inhibitor
enzyme
(E inact.
rate
with
pK - 6.9 of
creatine
kinase
E’I
and
phosphocreatine
the
enzyme,
Similar
be
most
this
‘MgADP
be
involved
purified
radioactive
label
to
suppose
the ( %Yz)
value
of
noncovalent of
),
an
with these
a data
complex
inactive
mM)
against was
which the
formation
( 15 of
enzyme into
the
was
was
form
of
that
some
leads shows
creates
of the
transition
to
also
inactivation
a mixture
that its
by
MgADP
(0.5
“working”
mM)
state
state
of
complex
). inactivation
parallel
with and
362
on
protonation
creatine
protein,
dependent
revealed
Fig.2
protected
aitochondrial the
whose
inactivation.
characteristics
of
us
( 14
dependence
effective (15
Inactivation
of
inactivation
of
including
E’creatine’POS
logarithm
Finact
kinase
enzyme
could
-2
the
to
formation
4
may
the
and
substrates,
soluble,
G
study
acceleration
of
l/[oADP]
formation
before
creatine
of
Quantitative
groups
of
the
1:
.E + I The
the
in
on
half-inactivation
According
(E.1)
-
of
shown
dependent
allows
time
linearly
probability
is
dependence
reaction
ordinate-intercept.
point
concentrations wzis
linear
kinase
creatine
inactivation
oADP;
the
to
positive
heart
of
on
found
of
rate
concentration
PH.
AND
against
Time-course
the
the
plotted
line
this
0.14
to
translocase.
straight of
BIOCHEMICAL
1, 1986
complete
were kinase
seen was
incorporation inactivation
when used. of
the was
Vol.
134.
No.
8lOCHEMlCAL
1, 1986
AND
BIOPHYSICAL
RESEARCH
COMMUNICATIONS
100 so 60 70 60 50 fI 40 t; : 30 : 20
1.36 ’ 0.92 10
0
pig.2.
when
dimeric
2
enzyme Figure
with
adenine
shows
minutes
kinase
were
completely
cyt.aa
of
mitochondria.
50
incorporation
(Fig.3).
binding
to
difference, B cat
in
the
translocase cyt
.aa 3’
consistent
Since
This with
of
T was
all
creatine
CAT was
time
translocase
level ADP
of other
to
of
363
to
proteins
in
inhibit
label nucleotide
value
total
o [3H]ADP
the
to
be
equal
to
content
show
(18).
the
of
content
of
mole/mole
mitochondria Table
t 11e
binding
2.6 -2.9 in
per
incorporation
maximal
taken
estimations
or3H]ADP
binding
was
translocase
of
creatine
decreased
the is
and
dependent. and
16 moles
shown
),
CAT)
found
of
kinase
and
numerous
= T (Btot
presence
value
inactivation
This
( 17
- Beat
(T).
Both
carboxyatractyloside
translocase Btot
method.
about
incorporated.
,,,uM
mole
mitochondria
when
to
1
into
irreversible
incubation
binding
with
o[~H]ADP
and
inhibited,
o[ 3H]ADP
reflects
and
translocase
were
3
of
were
bound
) ).
filtration
incorporation 30-40
was
incorporation
a Millipore
After
of
( 16
TIiiE.flIN
of creatine kinase in The numbers show oADP 10 mW ADP was added; +ADP+ were added. The reaction “Material and Methods”. was 1.2 mg/ml , 21’C.
or3H]ADP
000
nucleotide
o[~H]ADP
mol
of
(M.W.=82 3a
determined
moles
, 40
30
Kinetics of inactivation mitochondria oADP. by concentration in q M. +ADP - 2aM ADP and 15 nM PCr PCr mixture iS given in Mitochondrial concentration
observed
of
20
1 shows
is T
Vol. 134, No. 1, 1986
0
BIOCHEMICAL
20
10
RESEARCH COMMUNICATIONS
30
TIME,MIN Pig.3.
AND BIOPHYSICAL
A - Kinetics of incorporation of o[~H]ADP into rat heart ritochondria. 1 - total incorporation: 2 difference between total incorporation and that in the presence of 50&M carboxyatractyloside; 3 difference between total incorporation and that in the presence of 0.5 l N ADP and 15 111 PCr. Inhibitor concentration in all cases was 0.7 eM. 30°C. 8 - Linear relationship between creatine kinase activity of rat heart mitochon ria and (ADP + PCr) B sensitive incorporation of o[ HIADP (see curve 3 in Pig.3A).
Table
1.
Translocase eitochondria,
and isolated
Cyt.aa naoles protein
creatine from different
kinase
contents. sources
activity, IU/eg
CK, mol/aol cyt .aa3
T, aol/Bol cyt .aa3
0.445i.o.09
4.5*0.5
2
35~0.25
2.65~0.25
0.353*0.07
3.0*0.3
2
43tO.26
2.70i0.2
2.9f0.3
2
23kO.19
2.80f0.20
0.354%0.06
0.86tO.2
2
60~0.34
2.90+_0.25
Rat liver aitochondria
0.246t0.04
0.00
0
00
2.60f0.25
,Rat heart mltoplast
0.360*0.06
2.5f0.3
2
02f0.3
2.3020.30
0.370*0.05
0.065iO.01
0.2OiO.03
2.36t0.30
Rat heart mitochondria Rabbit ritochondria
CK
? ag
heart
Dog heart mitochondria Chicken aitochondria
Rat
heart
heart
q itoplast incubated in KCl+ADP Mean
values
and
SD
are
given
for
364
four
experiments.
in
Vol.
134,
for
No.
BIOCHEMICAL
1, 1986
mitochondria
the
from
T/cyt.aa3 3a
Fig. which
completely
Fig.2)
decreases
in the
show
ratio
was
found
shows
also
that
the
.
of In
lower
ratio
is
Fig.
decrease
in
phosphocreatine mitochondria,
the
moles/mole
values
of
that
in if
treatment. content
determined
in
using
SH-reagents
chicken
heart
its
ADP
that
much
lower
effects
of
content the
for
work
( 20 1.
It
activity
is
types (Tabl.
Table
mitoplast
for
determination
kinase
+
to
Table was
membrane creatine be
highly
mitochondria determined
that to
in
value
of
in
notice content
mitochondria also
ADP
1.
same
proved
see
+
BCKmit)
from
cardiac
the
2.4-2.6
the
removed
1, 365
an ADP
the
of
oADP
additive.
in
kinase
a
When
= 0;
creatine
has
complete
as
interesting
mM
when
also
were
with
15
at
CKmit.
agrees
in
to
and
given
creatine
present
other
CAT
mitochondria of
BCKmit
CAT-treated
(determined
method
mitochondria
from
was
the
to
related
cyt.aa3.
value
was
taken
against
B CKmit.
kinase
was
( ATP
and
are
of3HIA”P
level
linearly
binding
is
and
translocase is
The
equilibrium
study
o[~H]ADP
cardiac
ADP
to
mitochondria
in
mM
an
used
contents
Thus,
,
This
1.
preparations
creatine
The
of
CK
liver
specific.
differ
on
mitochondrial
determined
kinase
The
3’
kinase 0.5
BCKmit
was
mixture
different
of
(see
mitochondria.
(BpCr,ADp
protect
that
maximal
cyt.aa
phosphocreatine
KC1
shows
kinase
phosphocreatine)
( 19 not
mixture
The
into
creatine kinase activity, max BCKmit. = 2.4-2.5 moles/mole
inactivation
by
does
phosphocreatine
+
establishes
low
mitochondria
creatine
creatine
kinase
T) 3b
to
all
ADP
of
presence
very
to
binding.
mixture
and
label
COMMUNICATIONS
constant.
= BCKmit ADP
creatine
affinity
1 shows
the
of
the
phosphocreatine, ADP/ATP
be
incorporation
the
RESEARCH
For
inactivation
presence
mitochondria.
the
to
- BPCr,ADP
binding
BIOPHYSICAL
sources.
prevents
Btot
binding
different
o[~H]ADP
difference,
AND
ref.
by that
in
does
not
in ( 21
spite )).The
Vol.
134,
No.
data
BIOCHEMICAL
1, 1986
of
Table
present
in
1 show
(Table
phosphocreatine In
shuttle conclusion
effectively proteins in
alterations creatine
for
of in
kinase
consistent
all
of
with
the
hypothesis
(or
oATP)
oADP
determination
of
the
content
may
be
mitochondrial
are cardiac of
). that
This
kinase
types
show
different
( 21
is
in
COMMUNICATIONS
creatine
results
mitochondria.
cases
This
RESEARCH
and
amounts
( 1,2,3 , the
used in
the
1).
BIOPHYSICAL
translocase
equimolar
almost
mitochondria
that
AND
method
pathology enzymes,
of
muscle including
of
ADP
especially which
can
be
binding important
may
translocase
involve and
).
REFERENCES 1. 2. 3. 4. 5. 6. 7. 8. 9. 10 11 12 13 14 15 16 17 18 19 20
21
V.A., Kupriyanov V.V., Elizarova G.V., Jacobus W.E. (1980) J.Biol.Chem. 255, 755-763. Jacobus W.E., Saks V.A. (1982) Arch.Biochem.Biophys. 222, 167-178. Saks V.A., Kuznetsov A.V., Kupriyanov V.V., Miceli M., Jacobus W.E. (1985) J.Biol.Chem. 250, 77577764. Riccio P., Scherer B., Klingenberg M. (1973) FEBS Lett. 3l, 11-14. DeMelo D.F., Satre M., Vignais P.V. (1984) FEBS Lett. 162, 101-106. Tsai P.K., Hogenkamp H.P.C. (1983) Arch. Biochem. Biophys. 226 --- 9 276-284. Johnson D., Lardy H.A. (1967) Methods Enzymol. 10, 94-96. Greenwalt J.W. (1968) J.Cell.BiolT-38, 158Schaitman C., 175. Van Gelder B.F. (1966) Biochim.Biophys.Acta 118 1 36-46. --(1976) Easterbrook-Smith S.B., Wallace J.C., Keech D.B. Eur.J.Biochem. 62, 125-130. Hansske F., Sprinzl M., Cramer F. (1974) Bioorg.Chem. 2, 367-376. Barbour R.L., Ribaudo J.. Chan S.H. (1984) J.Biol.Chem. 252, 8246-8251. Gerok W. (1983) J.Biochem. 94. 1247Blum H.E., Deus B., 1257. Meloche H.P. (1967) Biochemistry 5, 2273-2280. Milner-White E.J., Kelly I.D. (1976) Bi0chem.J. l..x, 23-32. Roberts R., Grace A.M. (1980) J.Biol.Chem. 255, 2870-2877. Klingenberg M., Appel M. (1980) FEBS Lett. 112, 195-199. Vignais P.V. (1976) Biochim.Biophys.Acta 456, l-38. (1977) J.Mol.Cell.Cardiol. 2, Altschuld R.A., Brierley G.P. 875-884. Kupriyanov V.V., Elizarova G.V., Saks V.A. (1981) Biokhimiia 930-941. 46, Bennet V.D., Hall N., DeLuca M., Suelter C.H. (1985) Arch. Biochem.Biophys. 240, 380-391. Saks
366