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Binding of adenine nucleotides by mitochondria during active uptake of Ca++
Vol. 16, No. 1, 1964
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
BINDING OF ADENINE NUCLEOTIDES BY MITDCHONDRIA DURING ACTIVE Ernest0
Carafol
i”
Department The
Johns
of
UPTAKE OF CA*
and
April
The
14,
Hopkins
also
mechanisms al.,
requires
Vasington
the
ATP
suggested
necessary
electron
of
been
is
of
presence 1962;
has
Ca w
However,
Murphy,
It
of
1963). the
and
1963).
for
ATP
the
explanation,
however,
does
not
the
presence
to
the
same
completely
chondria be
and for
despite
A possible
*
U.S.
Medicine
by
Health
the
system
in
fact
this
Lehninger
Service
the the
ATP-induced
(DeLuca
and
Engstrom,
swelling
agent.
that
absence
St-‘+
has
et
role al.,(l963
Postdoctol.al
66
no
ATP
a,
b)
Fellow
in that
of
that the
supporting
action a reagent
swollen
mito-
also
of
Sr’+
by
effects
al.,
This
has
Lehriinger,
of
et 1963)
ATP
damaging
and
1961;
oligomycin, of
Furthermore,
i , Wei land specific
the
of
circumstances
al., state
fact
1963;
Brierley
structural
accumulation
that
1964; et
the
Lehninger, these
contraction
1962).
by
under
a powerful for
and
Brierley
the
supported
Ca++
1963,
1963;
or
(Carafol to
of
of
be
(Rossi
Lehninger,
account
the
may
transport
respiration-supported the
clue made
Public
mitochondria
Ca+‘,
Lehninger,
structure
finding
by
and
of
suppresses
necessary
mitochondrial
the
in
(Neubert
mitochondria
Maryland
maintenance
presence
which
of
9,
(Vasington,
the
is
in
Rossi
in
ATP
School
accumulation
mitochondria
of
Chemistry
University
accumulation
energy-conserving et
Lehninger
1364
active
Brierley
L.
Physiological
Baltimore
Received
Albert
on
been rat
shown 1 iver
the
1964). Ca’+
accumulation
significant
is amounts
Vol. 16, No. 1, 1964
of
BIOCHEMICAL
easily-hydrolyzed
accumulate
phosphate
in
phosphate. it
is
shown
liver
rat
liver
by
electron
same
observation
that
large
amounts
from
remants
Ca
as
to
been
of
the
suspending
The
uptake
id-
uptake,
its
for
7 minutes)
of in
nucleotides during
Cathis
are
is
and
inorganic
communication
accumulated
uptake
nucleotides
and
100°
further;
medium of
at
accumulation
pursued
adenine
RESEARCH COMMUNICATIONS
I 1 HCI
during
has
transport.
requi
(labile
mitochondria
This
mitochondria
AND BIOPHYSICAL
of
by
Ca*
supported
Ca++-dependent,
sensitivity
to
rat
has
inhibitors
is
the similar.
EXPERIMENTAL The Rossi
general
and
Lehninger
ATP-8-C
‘4
end
the
of
twice
counted
at
the
cold 0.25
infinite of
a biuret
the
tubes
Ca*
was
carried
Protein
was
and
the
on
and
plated,
and
apparatus.
pellets
were
according
the
the
were
acid,
gas-flow
washed
0’
pellets
formic
of
at to
The
85%
those
nucleotides,
cooled
5 minutes.
processed
determined
were
mitochondria;
quickly
in
Ca”
adenine
the
background
out,
4.6,
pH
were
dissolved a low
of of
with
x g for
in
uptake
binding
incubated
M sucrose,
buffer
(1960).
measuring
20,000
thinness
E succinate
Walser
at
the
was
period,
with
determination
measuring
For
c.p.m.),
incubation
washed
0.1
00
in
for
(1963).
(1000-1~
centrifuged
in
conditions
to
mitochondrial
When
resuspended the
method
of
suspensions
by
reaction.
RESULTS Fig. to
the
1-A
mitochondria
nucleotides that
the
labeled
Cai’
-stimulated
experiments,
it
the
limited by with
by
the its
the
rate
with
are
indicates of
compares
not
the
bound
the
binding
ATP
added
rate
of
was
bound
of
experiment
in
Fig.
ATP
and
the in
the
that
appears
The
to
67
at
accumulation 20
minute
That
this of
of of
is labeled
saturation
nucleotides The
adenine
a rate which i-b About of Ca . However,
period.
most binding
reach
Cat+.
rather
the
binding
adenine
of
hydrolyzes
present.
1-B.
labeled
but
activity possible
amount
of
accumulation
accompanies
appeared
the
binding
instantaneously,
ATPase
concentration
of
the
added
labeled
4-5% since
ATP
in
such
nucleotide
probably
true
is
was shown
nucleotide
increases
only
6.0
above
mM ATP.
Vol. 16, No. 1, 1964
BIOCHEMICAL
GO
6 MINUTES
AND BIOPHYSICAL
12 I6 OF INCUBATION
RESEARCH COMMUNICATIONS
5 IO mM ATP
t
15
A - Ca++ and ATP uptake by mitochondria. Test system contained 10 Fiqure 1. 10 mM MgC’2, 4 0 mM NaK-phosphate, 10 mM NamM Tris-HCl, pH 7.0, 80 mM NaCI, ‘4 ), 4.0 mM CaC12 succinate, 3.0 mM ATP-Na (4-1500 c.p.m. ATP-8-C and rat liver mitochondria (Is mg protein) in a total volume of 10.0. Temperature. 30”. B m ATP uptake by mitochondria as a function of the added ATP concentration. Test system as in Fig. lA, with variable amounts of ATP. Time, 20 minutes, temperature, 30”.
Typical a system
data containing
in
Table
1 show
respiratory
that
the
substrate,
Mg*,
Table Requirements
for by
labeled
binding rat liver
ATP Ca*
System
and
bound Pi.
Omission
HCl pH 7.0 3.0 mM ATP-Na (15 mg protein)
80 mM NaCl, (+I500 c.p.m. in a total
88.' 47.7 45.0 52.0 16.6
Comp 1e te Ca* omitted Complete + 1 ug
91.5 ‘9.1 91.2
0.2
oligomycin
x mg”
protein
35.0
mM 2,&dinitrophenol
68
of
any
10 mM MgCl ATP-8-CeG), volume of
Nucleotide ptake mpmoles x mg 3 protein
+
in
nucleotides
Complete Mg* omitted Succinate omitted Pi omitted Ca* omitted
Complete
maximally
1 of C14-adenine mitochondria
The test system contained ‘0 mM Tris 4.0 mM NaK-phosphate, 10 mM Na succinate, 4.0 mM CaC12, and rat liver mitochondria 10.0 ml. Incubated 20 min. at 30”.
is
BIOCHEMICAL
Vol. 16, No. 1, 1964
component with
greatly
those
limits
required
for
1962) ,( BrIerley
et
in
show
Table
1 also by
oligomycin
agreement
with
the
to
ATP
some
of adenine
the
normal
with
the
much
mitochondria
by In
several
and
were
suggest
a simple
does
accumulation
that is
It
appears
most
contains
earlier
easily-hydrolyzed
of
0.05-0.10
(1964) 1 iver
one
experiments
of
have
of
or of
that
both
of
demonstrated
per
the
umole that
Ca*c both
be
liver
a significant this
saturation Fig.
1B were or
(i.e.
-1
about may
amounts
wmole
(i.e.
high
about
160
10 be
times
compared
per
reaction
of
Ca-
both
mg protein)
recently
and
and
des-
labeled
varying
60 and
90
Ca*
adenine
concentra-
wmoles
This
adenine
of
ratio
does
nucleotide
nucleotides
adenine not
binding
accompanying
Ca*
process. of
acid-labile al., Pi)
Ca*
widely
adenine
form
et
7 min.
in
accumulated.
of
the
Lehninger P (
umole
Ca*
conspicuous
likely
not in
Ca*;
This
between
binding
a relatively
at
that
of
between
the
is
in to
protein,
uptake
intervals,
stoichiometry
indicate
as
conditions
umole
data
(1964).
which
under
per
bound
ADP
Contessa
time
bound
and
and
measured,
different
ATP
atractyloside-sensitive
in
typical
nucleotides
added
mitochondria.
the
experiments
at
nucleotide
still
Luciani
were
tions
of
Murphy,
Z,&dinitrophenol,
on
mg mitochondrial
amounts
The
appears
dependent
such
isolated
and
accumulation
There
nucleotide
freshly
in
Bruni,
nucleotide
but
smaller
by
identical
uptake.
experiments per
in
not
adenine
nucleotide
content
by
in
is
(Vasington
adenine
Ca*
1962).
nucleotide
of
of
on
are
1963).
strongly
agents
Murphy,
maximum
ATP)
binding
these
Ca+*
Lehninger,
inhibited
which
amounts
concentrations
cribed
of and
the
maximum
mpmoles
is
RESEARCH COMMUNICATIONS
requirements
of
and
aerobic
but action
of
(Rossi
the
accumulation
l.S-ZO%
The
bound
that
These
binding. accumulation
1963),
(Vasington
base-line
ATP
maximum
al.,
inhibited
mitochondria
the
AND BIOPHYSICAL
the
labeled
phosphate (1963
a,
b)
accumulated
accumulated. P32 - 1 abe led
mitochondria.
69
nucleotide
with In ATP
groups,
since
showed
that
Ca*
are
addition, and
bound
ADP
the of
Bruni are
the
bound
amounts the
order
eta., to
rat
BIOCHEMICAL
Vol. 16, No. 1, 1964
It of
Ca*
calcium Ca%
possible
binding,
and
phosphate does
Rossi in
appears
not
and
oligomycin
the
the Whitehall
in
1964).
National
the
The
aids
mitochondria, et
significance
under
supported
by
Foundation,
grants The
at
or
near
sites
forming
in
such
a manner
that
1964;
Carafoli
et
the
and
the
in
al., of
further
RESEARCH COMMUNICATIONS
bound
phosphorylation, is
Science
is
(Greenawalt
oxidative
was
nucleotide nucleotide
again
atractyloside
investigation
the
bound
out
uptake,
and
This Health,
llleaktr
Ca*
that
deposits
Lehninger,
active
that
AND BIOPHYSICAL
stabilizing the al.,
nucleotide-binding
and
in
the
sites
1964; reaction
of
action
of
investigation. from Nutrition
the
National Foundation,
Institutes Inc.,
of and
Foundation.
BIBLIOGRAPHY
Brierley, Bruni, Carafoli,
G. P., Murer, E. and Green, D. E., Science, 140, 60 (1963). Luciani, S. and Contessa, A. R., Nature, 201, 1219 (1964). E., Weiland, S. and Lehninger, A. L., Biochim. Biophys. Acta, Submitted for puklication. Carafoli, E., Rossi, C. S. and Lehninger, A. L., J. Biol. Chem., In press. DeLuca, H. F. and Engstrom, G. W., Proc. Nat. Acad. Sci. U.S., 4i’, 1744 (1961). Greenawalt, J. W., Rossi, C. S. and Lehninger, A. L., J. Cell Biol., In press. Lehninger, A. L., Rossi, C. S. and Greenawalt, J. W., Biochem. Biophys. Research comll., l-$ 444 (1963a). Lehninger, A. L., Rossi, C. S. and GreenawaIt, J. W., Fed. Proc., 22, 526 A.,
(1963b). Neubert, D. and Lehninger, Rossi, C. S. and Lehninger, Rossi C. S. and Lehninger, Schneider, W. C. in Manometric J. E. Stauffer (eds.), Vasington, F. D., J. Biol. Walser, M., Anal. Chem., 21,
A. L., Biochim. Biophys. Acta, 62, 556 (1962). A. L., Biochem. Zeit., 338, 698 (1963). A. L., J. Biol. Chem., Submitted for publication. Techniques , W. W. Umbreit, R. Burris and Burgess Press, Minneapolis, 1956, p. 188. Chem., 2& 1941 (1963). 771 (1960).
70
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
BINDING OF ADENINE NUCLEOTIDES BY MITDCHONDRIA DURING ACTIVE Ernest0
Carafol
i”
Department The
Johns
of
UPTAKE OF CA*
and
April
The
14,
Hopkins
also
mechanisms al.,
requires
Vasington
the
ATP
suggested
necessary
electron
of
been
is
of
presence 1962;
has
Ca w
However,
Murphy,
It
of
1963). the
and
1963).
for
ATP
the
explanation,
however,
does
not
the
presence
to
the
same
completely
chondria be
and for
despite
A possible
*
U.S.
Medicine
by
Health
the
system
in
fact
this
Lehninger
Service
the the
ATP-induced
(DeLuca
and
Engstrom,
swelling
agent.
that
absence
St-‘+
has
et
role al.,(l963
Postdoctol.al
66
no
ATP
a,
b)
Fellow
in that
of
that the
supporting
action a reagent
swollen
mito-
also
of
Sr’+
by
effects
al.,
This
has
Lehriinger,
of
et 1963)
ATP
damaging
and
1961;
oligomycin, of
Furthermore,
i , Wei land specific
the
of
circumstances
al., state
fact
1963;
Brierley
structural
accumulation
that
1964; et
the
Lehninger, these
contraction
1962).
by
under
a powerful for
and
Brierley
the
supported
Ca++
1963,
1963;
or
(Carafol to
of
of
be
(Rossi
Lehninger,
account
the
may
transport
respiration-supported the
clue made
Public
mitochondria
Ca+‘,
Lehninger,
structure
finding
by
and
of
suppresses
necessary
mitochondrial
the
in
(Neubert
mitochondria
Maryland
maintenance
presence
which
of
9,
(Vasington,
the
is
in
Rossi
in
ATP
School
accumulation
mitochondria
of
Chemistry
University
accumulation
energy-conserving et
Lehninger
1364
active
Brierley
L.
Physiological
Baltimore
Received
Albert
on
been rat
shown 1 iver
the
1964). Ca’+
accumulation
significant
is amounts
Vol. 16, No. 1, 1964
of
BIOCHEMICAL
easily-hydrolyzed
accumulate
phosphate
in
phosphate. it
is
shown
liver
rat
liver
by
electron
same
observation
that
large
amounts
from
remants
Ca
as
to
been
of
the
suspending
The
uptake
id-
uptake,
its
for
7 minutes)
of in
nucleotides during
Cathis
are
is
and
inorganic
communication
accumulated
uptake
nucleotides
and
100°
further;
medium of
at
accumulation
pursued
adenine
RESEARCH COMMUNICATIONS
I 1 HCI
during
has
transport.
requi
(labile
mitochondria
This
mitochondria
AND BIOPHYSICAL
of
by
Ca*
supported
Ca++-dependent,
sensitivity
to
rat
has
inhibitors
is
the similar.
EXPERIMENTAL The Rossi
general
and
Lehninger
ATP-8-C
‘4
end
the
of
twice
counted
at
the
cold 0.25
infinite of
a biuret
the
tubes
Ca*
was
carried
Protein
was
and
the
on
and
plated,
and
apparatus.
pellets
were
according
the
the
were
acid,
gas-flow
washed
0’
pellets
formic
of
at to
The
85%
those
nucleotides,
cooled
5 minutes.
processed
determined
were
mitochondria;
quickly
in
Ca”
adenine
the
background
out,
4.6,
pH
were
dissolved a low
of of
with
x g for
in
uptake
binding
incubated
M sucrose,
buffer
(1960).
measuring
20,000
thinness
E succinate
Walser
at
the
was
period,
with
determination
measuring
For
c.p.m.),
incubation
washed
0.1
00
in
for
(1963).
(1000-1~
centrifuged
in
conditions
to
mitochondrial
When
resuspended the
method
of
suspensions
by
reaction.
RESULTS Fig. to
the
1-A
mitochondria
nucleotides that
the
labeled
Cai’
-stimulated
experiments,
it
the
limited by with
by
the its
the
rate
with
are
indicates of
compares
not
the
bound
the
binding
ATP
added
rate
of
was
bound
of
experiment
in
Fig.
ATP
and
the in
the
that
appears
The
to
67
at
accumulation 20
minute
That
this of
of of
is labeled
saturation
nucleotides The
adenine
a rate which i-b About of Ca . However,
period.
most binding
reach
Cat+.
rather
the
binding
adenine
of
hydrolyzes
present.
1-B.
labeled
but
activity possible
amount
of
accumulation
accompanies
appeared
the
binding
instantaneously,
ATPase
concentration
of
the
added
labeled
4-5% since
ATP
in
such
nucleotide
probably
true
is
was shown
nucleotide
increases
only
6.0
above
mM ATP.
Vol. 16, No. 1, 1964
BIOCHEMICAL
GO
6 MINUTES
AND BIOPHYSICAL
12 I6 OF INCUBATION
RESEARCH COMMUNICATIONS
5 IO mM ATP
t
15
A - Ca++ and ATP uptake by mitochondria. Test system contained 10 Fiqure 1. 10 mM MgC’2, 4 0 mM NaK-phosphate, 10 mM NamM Tris-HCl, pH 7.0, 80 mM NaCI, ‘4 ), 4.0 mM CaC12 succinate, 3.0 mM ATP-Na (4-1500 c.p.m. ATP-8-C and rat liver mitochondria (Is mg protein) in a total volume of 10.0. Temperature. 30”. B m ATP uptake by mitochondria as a function of the added ATP concentration. Test system as in Fig. lA, with variable amounts of ATP. Time, 20 minutes, temperature, 30”.
Typical a system
data containing
in
Table
1 show
respiratory
that
the
substrate,
Mg*,
Table Requirements
for by
labeled
binding rat liver
ATP Ca*
System
and
bound Pi.
Omission
HCl pH 7.0 3.0 mM ATP-Na (15 mg protein)
80 mM NaCl, (+I500 c.p.m. in a total
88.' 47.7 45.0 52.0 16.6
Comp 1e te Ca* omitted Complete + 1 ug
91.5 ‘9.1 91.2
0.2
oligomycin
x mg”
protein
35.0
mM 2,&dinitrophenol
68
of
any
10 mM MgCl ATP-8-CeG), volume of
Nucleotide ptake mpmoles x mg 3 protein
+
in
nucleotides
Complete Mg* omitted Succinate omitted Pi omitted Ca* omitted
Complete
maximally
1 of C14-adenine mitochondria
The test system contained ‘0 mM Tris 4.0 mM NaK-phosphate, 10 mM Na succinate, 4.0 mM CaC12, and rat liver mitochondria 10.0 ml. Incubated 20 min. at 30”.
is
BIOCHEMICAL
Vol. 16, No. 1, 1964
component with
greatly
those
limits
required
for
1962) ,( BrIerley
et
in
show
Table
1 also by
oligomycin
agreement
with
the
to
ATP
some
of adenine
the
normal
with
the
much
mitochondria
by In
several
and
were
suggest
a simple
does
accumulation
that is
It
appears
most
contains
earlier
easily-hydrolyzed
of
0.05-0.10
(1964) 1 iver
one
experiments
of
have
of
or of
that
both
of
demonstrated
per
the
umole that
Ca*c both
be
liver
a significant this
saturation Fig.
1B were or
(i.e.
-1
about may
amounts
wmole
(i.e.
high
about
160
10 be
times
compared
per
reaction
of
Ca-
both
mg protein)
recently
and
and
des-
labeled
varying
60 and
90
Ca*
adenine
concentra-
wmoles
This
adenine
of
ratio
does
nucleotide
nucleotides
adenine not
binding
accompanying
Ca*
process. of
acid-labile al., Pi)
Ca*
widely
adenine
form
et
7 min.
in
accumulated.
of
the
Lehninger P (
umole
Ca*
conspicuous
likely
not in
Ca*;
This
between
binding
a relatively
at
that
of
between
the
is
in to
protein,
uptake
intervals,
stoichiometry
indicate
as
conditions
umole
data
(1964).
which
under
per
bound
ADP
Contessa
time
bound
and
and
measured,
different
ATP
atractyloside-sensitive
in
typical
nucleotides
added
mitochondria.
the
experiments
at
nucleotide
still
Luciani
were
tions
of
Murphy,
Z,&dinitrophenol,
on
mg mitochondrial
amounts
The
appears
dependent
such
isolated
and
accumulation
There
nucleotide
freshly
in
Bruni,
nucleotide
but
smaller
by
identical
uptake.
experiments per
in
not
adenine
nucleotide
content
by
in
is
(Vasington
adenine
Ca*
1962).
nucleotide
of
of
on
are
1963).
strongly
agents
Murphy,
maximum
ATP)
binding
these
Ca+*
Lehninger,
inhibited
which
amounts
concentrations
cribed
of and
the
maximum
mpmoles
is
RESEARCH COMMUNICATIONS
requirements
of
and
aerobic
but action
of
(Rossi
the
accumulation
l.S-ZO%
The
bound
that
These
binding. accumulation
1963),
(Vasington
base-line
ATP
maximum
al.,
inhibited
mitochondria
the
AND BIOPHYSICAL
the
labeled
phosphate (1963
a,
b)
accumulated
accumulated. P32 - 1 abe led
mitochondria.
69
nucleotide
with In ATP
groups,
since
showed
that
Ca*
are
addition, and
bound
ADP
the of
Bruni are
the
bound
amounts the
order
eta., to
rat
BIOCHEMICAL
Vol. 16, No. 1, 1964
It of
Ca*
calcium Ca%
possible
binding,
and
phosphate does
Rossi in
appears
not
and
oligomycin
the
the Whitehall
in
1964).
National
the
The
aids
mitochondria, et
significance
under
supported
by
Foundation,
grants The
at
or
near
sites
forming
in
such
a manner
that
1964;
Carafoli
et
the
and
the
in
al., of
further
RESEARCH COMMUNICATIONS
bound
phosphorylation, is
Science
is
(Greenawalt
oxidative
was
nucleotide nucleotide
again
atractyloside
investigation
the
bound
out
uptake,
and
This Health,
llleaktr
Ca*
that
deposits
Lehninger,
active
that
AND BIOPHYSICAL
stabilizing the al.,
nucleotide-binding
and
in
the
sites
1964; reaction
of
action
of
investigation. from Nutrition
the
National Foundation,
Institutes Inc.,
of and
Foundation.
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