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The effects of cell-released protease nexin on the measurement of thrombin binding to mouse cells
Vol. 105, No. 2, 1982 March 30. 1982
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS Pages 667-673
THE EFFECTS OF CELL-RELEASED PROTEASE NEXIN ON THE MEASUREMENT OF THROMBIN BINDING TO MOUSE CEILS David Department
Received
A. Low and Dennis
of Microbiology,
February
15,
0. Cunningham
College of Medicine, University Irvine, California 92717
of California,
1982
We previously showed that fibroblast-like cells release protease nexin into their growth medium. Protease nexin links to thrombin and mediates the cellular binding of thrombin via the protease nexin part of the complex to a site different from that for unlinked thrombin (1,Z). To determine the effect that cell-released protease nexin had on the measurement of total cell-bound thrombin, we separately measured the cellular binding of both 1251-thrombin and 1251-thrombin-protease nexin complexes. Scatchard analy i of our binding data indicates that the cellular binding affinit of linked ?*$I-thrombin is about 19-fold higher than that of unlinked l**I-thrombin. We show that protease nexin acts to increase the apparent affinity of 1251-thrombin for cellular binding sites. Introduction Thrombin
is
mouse embryo on their tease
mitogen
for
(3,41.
These
cells
cells
cell nexin
surface (2).
ages with
thrombin
complexes,
formed
the
a potent
complex
thrombin-protease the apparent
Protease
nexin
is
serine
in the medium,
bind
different
measure nexin
affinity
and also
and other
to a site
Here we separately
(5,6,71
a variety
the
of cells
in culture
have high
affinity
thrombin
have cell
surface
released
by cells
proteases
(2,8).
to cells
from that cellular
complexes
via
which binding
and show that
of 1251-thrombin
for
cellular
binding
including binding sites
and forms
for
covalent
the protease unlinked unlinked
protease
nexin
binding
nexin
nexin
part
thrombin
of both
thrombin acts
prolink-
Thrombin-protease
binds
sites
of
(2). and
to increase
sites.
Materials and Methods Highly purified human thrombin (about 3100 National Institutes of Health units/mgl was generously supplied by Dr. John W. Fenton II (9). Ovalbumin (B grade) was from Calbiochem, PhAsO was from Aldrich, and lactoperoxidase (320 un/mg) was from Worthington. We purchased DV medium from Flow Laboratories; antibiotics were from Gibco and calf serum was from Irvine Scientific (Santa Ana, California). Na I251 was obtained from Amersham and Iodogen was from Pierce.
Vol. 105, No. 2, 1982
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Secondary mouse embryo fibroblast-like cells were cultured as described Binding studies were performed as described (2,7) except where noted. (41. Thrombin was iodinated using a scaled-down lactoperoxidase procedure (9) and retained full activity in a fibrinogen clotting assay at less than 0.4 mole I/mole thrombin (7 x 105 - 1 x 106 cpm/pmol) (7). Hirudin was iodinated using Iodogen and the hirudin assay for measuring cell-bound thrombin was performed as described (71. Levels of Iz51-thrombin and 1251-thrombin-protease nexin in the medium were determined using Weber-Osborne sodium dodecyl sulfate-polyacrylamide gels Samples were analyzed using 10% polyacrylamide as described except that (111. th y were not heated prior to electrophoresis. Cell-bound I*51-thrombin and 12E I _ thrombin-protease nexin were measured using a bis-tris sample buffer (2) and mono-tris/bis-tris sodium dodecyl sulfate polyacrylamide slab gels as described (12). I251-thrombin-protease nexin, formed in the medium or bound to cells, was stable under the conditions of analysis described above. After electrophoresis, quantitation of radioactivity in gel slices (2 mm each) was Lines were drawn through data points in Figures carried out as described (131. 1 and 2 using least squares analysis. Results To measure amounts
the cellular
of 1251-thrombin
thrombin-protease dodecyl that
complexes
for than
nexin
1 shows that
its
binding
that
of total
thrombin
binding
medium
shows that
cellular
the apparent lower
affinity
was taken
cells
via
ligand
for
its
(linked
binding plus
sites.
unlinked
of 1251-thrombin-protease
binding
of 1251-thrombin
amount
for
cells
nexin
19-fold
higher
analysis
using
cells
nexin
by about
of
ConcentrationI.
Importantly, thrombin)
of
used in the
to be the
medium was about
indicated
binding
of I251-thrombin-protease
in fresh
sodium
1.5-fold
in fresh
increased (Fig.
1,
panel). A potential
thrombin-protease this
of free
and 1251-
our results
was formed
the amount
affinity
increasing
using
in the medium at each 1251-thrombin
using
of 1251-thrombin
Since
nexin
of complexes
the apparent
sites
and quantitated
electrophoresis.
(21,
binding
1251-thrombin-protease Figure
gel
thrombin,
and 1251-thrombin
separated
1251-thrombin-protease
of cellular
and unlinked
to mouse cells
were
in the medium to cells
determination
of linked
added
polyacrylamide
most cell-bound
complexes
were
nexin
sulfate
binding
step
is
rate nexin
dependent
limiting complexes on levels
step
in the
is the
formation
formation
of protease
nexin
of cell-bound of complexes in the medium.
1251in the medium; Since
re-
1251-thrombin-protease nexin lWe have found that the amount of cell-bound nexin but not to levels pggportional to levels of I251-thrombin-protease Also, our results indicate that blockage I thrombin in the medium. of formation of 1251-thrombin-protease nexin complexes in the medium almost completely inhibits the formation of cell-bound complexes (not shown). ;;
668
Vol.
105,
No.
2, 1982
BIOCHEMICAL
AND BIOPHYSICAL
Bound
~molecules/cell
RESEARCH COMMUNICATIONS
x lO-31
Scatchard analysis of the binding of I*51-thrombin and 1251nexin to mouse cells. Mouse cells (9.0 x lo5 cells/35 mm dish) were washed and incubated in serum-free Dulbecco-Vogt modified Eagle's After five days medium from some medium containing ovalbumin (50 pg/mll. of the dishes was removed and replaced with fresh medium. Increasing amounts of 1251-thrombin were then added to cultures, with and without the of unlabeled thrombin (280 nM1. After 1 hr at 37"C, the amount of fjfi!:F:ombin and I*51-thrombin-protease nexin both in the medium and cellbound, was determined as described in Materials and Methods. The amount of radidactivity in each sample was normalized based on the fraction: (total radioactivity recovered on gel/total radioactivity in sample) which was about 0.8. The amount of nonspecific binding (binding in the present subtracted to yield the amount of specifically-bound thr m in-protease nexin at each 1*51-thrombin concentration. The amount of ?!L* I thrombin-protease nexin in the medium was used as the "free" concentratransformation (14) of binding data shown in the upper
lease
of
tion
in
nexin as
protease conditioned
(2). many
fresh tioned measured
nexin
At
is
gradual
medium, maximal
which
medium
(not the
increased
total by
As number
about
shown of
12-fold.
we
(14
Figure
there
formed
in
1 (upoer
669
incubaprotease
ahout
conditioned panel), nexin
the
of
were
1251-thrombin-orotease However,
binding
amounts
nM)
complexes in
performed
substantial
levels nexin
shown).
shown),
contains
Iz51-thrombin
1251-thrombin-protease medium
(not
apparent
usinq binding cellular
8-fold versus condisites affin-
Vol. 105, No. 2, 1982
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Figure 2. Disso iation of 1251-thrombin and thronbin from mouse cells. 11 6.5 x 10 s cells/35 mm dish) received thrombin (2.8 nM) or w I thrombin ce s ( (2.8 nM1. with and without the addition of thrombin (280 nM). in 2 ml of serum-free Dulbecco-Vogt modified Eagle's medium containing Hepes (10 mM) and ovalbumin (0.1%). After a 30 min incubation at 37'C, cells were rinsed twice using the serum-free medium described above and 2 ml of this medium was added to each dish. At increasing time intervals after this second incubation, cells were cooled to 4Y and were rinsed 3 times in ice-cold Dulbecco's phosphate buffered saline (D-PBS) and once in D-PBS containing phenylarsine oxide (0.1 mM). After a final rinse in D-PBS the amount of specifically bound I251-thrombin (linked plus unlinked1 remaining on one set of cell cultures was determined using sodium hydroxide solubilization as described (1,5). Also, the fraction of specifically-bound 1251-thrombin that was linked to protease nexin was determined immediately following the first 30 min incubation as described in Figure 1 and was equal to 0.20. The amount of unlabeled thrombin remaining on dishes was determined using the hirudin assay (-1, total cell-bound 1251-thrombin (I251-thrombin as described (5). plus I251-thrombin-protease nexin); (-1, cell-bound 1251-thrombin (after subtraction of the amount of cell-bound 1251-thrombin-protease nexin); (-1, cell-bound thrombin.
ity to
of
complexes
in
incubations
number
conditioned
in
of
fresh
cellular
thrombin-protease
medium These
medium.
hinding
sites
were
nexin
was
and
results the
by about
reduced
showed
apparent
dependent
on
a method
called
the
that
both
cellular conditions
70-fold
compared the
apparent
affinity used
of
for
1251-
binding
incubations. We previously picogram
amounts
ciation
rate
was about used
in
this
of twice
developed of
cell-hound
thromhin that
experiment
from for
thrombin the
cell
20%
(71. surface However,
1251-thromhin. ahout
the
of
specifically
hirudin
Figure
assay 2 shows
(measured at
for that
with the
cell-hound
the
thromhin thromhin
measuring the
disso-
hirudin
assay)
concentration was
BIOCHEMICAL
Vol. 105, No. 2, 1982 linked
to protease
that
only
about
nexin
16% of total
cell-dissociated tracted
after
the amount
point
in the
after
correction
tion
rate
for
thrombin
(hinding
data
used for
an incubation
at 37'C
dissociation
We showed
for
3 h (7).
curve.
I251-thrombin
was
Therefore, nexin
we sub-
from
each
As shown in Figure
(.066/min)
previously
nexin
I251-thrombin-protease
undissociable
unlinked
1).
I251-thrombin-protease
of cell-bound
for
Fig.
RESEARCH COMMUNICATIONS
1251-thrombin-protease
cell-hound
1251-thrombin
for
AND BIOPHYSICAL
nexin,
was about
2, the
dissocia-
the same as that
(.069/mini.
Discussion We recently preparations
showed
contained
diiodotyrosine site
for
taininq
that
diodotyrosine
was impaired
thrombin.
the hirudin
was measured.
fraction
Laemmli
gels
used to analyze
appears
to measure
ability
affinity
to be about
twice
affinity
appears
not linked
to be the
thrombin
l251to protease
Tris-containing
(7),
the hirudin
assay
much of the apparent
containing
of the different
for
linked
Because
of Iz51-thrombin
result
concentrations
of thrombin
(1).
the binding
sites
on the alkaline,
measured 1251-thrombin
mediated
of binding
formation
con-
cell-bound
nexin
amount
hindina
thrombin,
at low 1251-thrombin
the
affinities
for
total
11, protease
surface
of lP51-thrombin that
experiment
unstable
but
containing
to the cell
the binding
complex
in 1251-thrombin
Iz51-thrombin
to bind
apparent
were
unlinked
in the binding
of thrombin
(71.
we underestimated
the complexes
and thrombin
residues
(Figure
the
because
difference
of the molecules
of 1251-thromhin
increased
Previously
fraction
In the latter
As we show here
and significantly
nexin
its
appeared
assay.
of a significant
thrombin.
in
Additionally,
monoiodotyrosine
using
a large
methods
monoiodotyrosine of measurement
hinding.
If the
above hypothesis
thrombin
and thromhin
tracting
the undissociable
the
dissociation
the
cellular
by the hirudin
rates
should
then
be similar. fraction
rate (71,
of 1251-thromhin and thrombin
of unlinked
measurement
the dissociation
In Fiqure
of l251-thrombin
dissociation assay
is correct,
but not
of thrombin
accurate. 671
rate
2 we show that linked
dissociation
after
to protease
are almost linked
of I25I-
equal.
thrombin
subnexin, Because
is measured
from cells
is
Vol. 105, No. 2, 1982
BIOCHEMICAL
The reduced
binding
in conditioned binding
versus
sites
nexin
are
binding
for
formed
site
protease
apparent
in fresh
the apparent
via
competitive
binding.
medium
versus
that
presence nexin
since
he due to the presence
Since
lower
medium than
This
be linked
phenomenon
would
the
time
the high
affinity
much of the
to cell-released
occur
nexin
proteases
during
of 2 or more
proteases,
of 1251-thrombin-protease
of protease
to cell-released
medium,
Alternatively,
affinity
nexin
of 1251-thrombin-protease
in conditioned
medium might cellular
of Iz51-thrombin
levels
he measured.
the fraction
linked
that
to a lesser
linked
would
nexin extent
in
to Iz51-thrombin
he increased
cellular
release
due to the of protease
occurred. In summary,
affinity that
medium could
in conditioned
lowering
fresh
of Iz51-thrombin-protease
preferentially
thus
RESEARCH COMMUNICATIONS
affinity
complexes.
would
nexin
fresh
AND BIOPHYSICAL
results
presented
of lz51-thrombin of thromhin.
thrombin
containing
Our results
must be discriminated
of thrombin
with
cell
here
surface
indicate
that
monoiodotyrosine
show that in order binding
cellular
the cellular (71 is
binding
to accurately
binding
similar
of linked
determine
the
to and unlinked interaction
sites.
Acknowledgments This
work was supported
Institutes
of Health.
GM-07134.
We gratefully
technical
D.A.L. thank
by Research
Grant
was supported J.
W. Fenton
CA-12306
from the National
by predoctoral II
for
thrombin
training
grant
and G. Ryan for
assistance.
References D. 0. (1980) . Baker, J. B., Low, D. A., Simmer, R. L., and Cunningham, Cell 21, 37-45. D. D. (19811 2. Low, D. A., Baker, J. B., Koonce, W. C., and Cunningham, Proc. Nat. Acad. Sci. USA 78, 2340-2344. 3. Chen, L. B., and Buchanan, J. M. (19751 Proc. Nat. Acad. Sci. USA 72, 131-135. 4. Carney, D. H., Glenn, K. C., and Cunningham, D. D. (1978) J. Cell Physiol. 95, 13-22. 5. Carney, D. H., and Cunningham, D. 0. (1978) Cell 15, 1341-1349. 6. Glenn, K. C., Carney, D. H., Fenton, J. W. II, and Cunningham, D. D. (1980) J. Biol. Chem. 255, 6609-6616. D. D. (19821 J. Biol. Chem., in press. 7. Low, D. A., and Cunningham,
Vol. 105, No. 2, 1982 8.
9. 10. 11. 12. 13. 14.
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Low, D. A., Cunningham, D. D., Scott, R. W., and Baker, J. B. (1981) in Receptor-Mediated Binding and Internalization of Toxins and Hormones, eds. Middlebrook, J. L., and Kohn, L. D., pp. 259-270, Academic Press, New York. Fenton, J. W. II, Fasco, M. J., Stackrow, A. B., Aronson, D. L., Young, A. M., and Finlayson, J. S. (1977) J. Rio]. Chem. 252, 3587-3598. Martin, B. M., Wasiewski, W. W., Fenton, J. W. II, and Detwiler, T. C. (1976) Biochemistry 15, 4886-4893. Weber, K., and Osborne, M. (1969) J. Biol. Chem. 244, 4406-4412. Knauer, D. J., and Cunningham, 0. D. (1982) Proc. Nat. Acad. Sci. USA, in press. Baker, J. B., Simmer, R. L., Glenn, K. C., and Cunningham, D. D. (1979) Nature 278. 743-745. Scatchard,-G. (1949) Ann. N.Y. Acad. Sci. 51, 660-672.
613
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS Pages 667-673
THE EFFECTS OF CELL-RELEASED PROTEASE NEXIN ON THE MEASUREMENT OF THROMBIN BINDING TO MOUSE CEILS David Department
Received
A. Low and Dennis
of Microbiology,
February
15,
0. Cunningham
College of Medicine, University Irvine, California 92717
of California,
1982
We previously showed that fibroblast-like cells release protease nexin into their growth medium. Protease nexin links to thrombin and mediates the cellular binding of thrombin via the protease nexin part of the complex to a site different from that for unlinked thrombin (1,Z). To determine the effect that cell-released protease nexin had on the measurement of total cell-bound thrombin, we separately measured the cellular binding of both 1251-thrombin and 1251-thrombin-protease nexin complexes. Scatchard analy i of our binding data indicates that the cellular binding affinit of linked ?*$I-thrombin is about 19-fold higher than that of unlinked l**I-thrombin. We show that protease nexin acts to increase the apparent affinity of 1251-thrombin for cellular binding sites. Introduction Thrombin
is
mouse embryo on their tease
mitogen
for
(3,41.
These
cells
cells
cell nexin
surface (2).
ages with
thrombin
complexes,
formed
the
a potent
complex
thrombin-protease the apparent
Protease
nexin
is
serine
in the medium,
bind
different
measure nexin
affinity
and also
and other
to a site
Here we separately
(5,6,71
a variety
the
of cells
in culture
have high
affinity
thrombin
have cell
surface
released
by cells
proteases
(2,8).
to cells
from that cellular
complexes
via
which binding
and show that
of 1251-thrombin
for
cellular
binding
including binding sites
and forms
for
covalent
the protease unlinked unlinked
protease
nexin
binding
nexin
nexin
part
thrombin
of both
thrombin acts
prolink-
Thrombin-protease
binds
sites
of
(2). and
to increase
sites.
Materials and Methods Highly purified human thrombin (about 3100 National Institutes of Health units/mgl was generously supplied by Dr. John W. Fenton II (9). Ovalbumin (B grade) was from Calbiochem, PhAsO was from Aldrich, and lactoperoxidase (320 un/mg) was from Worthington. We purchased DV medium from Flow Laboratories; antibiotics were from Gibco and calf serum was from Irvine Scientific (Santa Ana, California). Na I251 was obtained from Amersham and Iodogen was from Pierce.
Vol. 105, No. 2, 1982
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Secondary mouse embryo fibroblast-like cells were cultured as described Binding studies were performed as described (2,7) except where noted. (41. Thrombin was iodinated using a scaled-down lactoperoxidase procedure (9) and retained full activity in a fibrinogen clotting assay at less than 0.4 mole I/mole thrombin (7 x 105 - 1 x 106 cpm/pmol) (7). Hirudin was iodinated using Iodogen and the hirudin assay for measuring cell-bound thrombin was performed as described (71. Levels of Iz51-thrombin and 1251-thrombin-protease nexin in the medium were determined using Weber-Osborne sodium dodecyl sulfate-polyacrylamide gels Samples were analyzed using 10% polyacrylamide as described except that (111. th y were not heated prior to electrophoresis. Cell-bound I*51-thrombin and 12E I _ thrombin-protease nexin were measured using a bis-tris sample buffer (2) and mono-tris/bis-tris sodium dodecyl sulfate polyacrylamide slab gels as described (12). I251-thrombin-protease nexin, formed in the medium or bound to cells, was stable under the conditions of analysis described above. After electrophoresis, quantitation of radioactivity in gel slices (2 mm each) was Lines were drawn through data points in Figures carried out as described (131. 1 and 2 using least squares analysis. Results To measure amounts
the cellular
of 1251-thrombin
thrombin-protease dodecyl that
complexes
for than
nexin
1 shows that
its
binding
that
of total
thrombin
binding
medium
shows that
cellular
the apparent lower
affinity
was taken
cells
via
ligand
for
its
(linked
binding plus
sites.
unlinked
of 1251-thrombin-protease
binding
of 1251-thrombin
amount
for
cells
nexin
19-fold
higher
analysis
using
cells
nexin
by about
of
ConcentrationI.
Importantly, thrombin)
of
used in the
to be the
medium was about
indicated
binding
of I251-thrombin-protease
in fresh
sodium
1.5-fold
in fresh
increased (Fig.
1,
panel). A potential
thrombin-protease this
of free
and 1251-
our results
was formed
the amount
affinity
increasing
using
in the medium at each 1251-thrombin
using
of 1251-thrombin
Since
nexin
of complexes
the apparent
sites
and quantitated
electrophoresis.
(21,
binding
1251-thrombin-protease Figure
gel
thrombin,
and 1251-thrombin
separated
1251-thrombin-protease
of cellular
and unlinked
to mouse cells
were
in the medium to cells
determination
of linked
added
polyacrylamide
most cell-bound
complexes
were
nexin
sulfate
binding
step
is
rate nexin
dependent
limiting complexes on levels
step
in the
is the
formation
formation
of protease
nexin
of cell-bound of complexes in the medium.
1251in the medium; Since
re-
1251-thrombin-protease nexin lWe have found that the amount of cell-bound nexin but not to levels pggportional to levels of I251-thrombin-protease Also, our results indicate that blockage I thrombin in the medium. of formation of 1251-thrombin-protease nexin complexes in the medium almost completely inhibits the formation of cell-bound complexes (not shown). ;;
668
Vol.
105,
No.
2, 1982
BIOCHEMICAL
AND BIOPHYSICAL
Bound
~molecules/cell
RESEARCH COMMUNICATIONS
x lO-31
Scatchard analysis of the binding of I*51-thrombin and 1251nexin to mouse cells. Mouse cells (9.0 x lo5 cells/35 mm dish) were washed and incubated in serum-free Dulbecco-Vogt modified Eagle's After five days medium from some medium containing ovalbumin (50 pg/mll. of the dishes was removed and replaced with fresh medium. Increasing amounts of 1251-thrombin were then added to cultures, with and without the of unlabeled thrombin (280 nM1. After 1 hr at 37"C, the amount of fjfi!:F:ombin and I*51-thrombin-protease nexin both in the medium and cellbound, was determined as described in Materials and Methods. The amount of radidactivity in each sample was normalized based on the fraction: (total radioactivity recovered on gel/total radioactivity in sample) which was about 0.8. The amount of nonspecific binding (binding in the present subtracted to yield the amount of specifically-bound thr m in-protease nexin at each 1*51-thrombin concentration. The amount of ?!L* I thrombin-protease nexin in the medium was used as the "free" concentratransformation (14) of binding data shown in the upper
lease
of
tion
in
nexin as
protease conditioned
(2). many
fresh tioned measured
nexin
At
is
gradual
medium, maximal
which
medium
(not the
increased
total by
As number
about
shown of
12-fold.
we
(14
Figure
there
formed
in
1 (upoer
669
incubaprotease
ahout
conditioned panel), nexin
the
of
were
1251-thrombin-orotease However,
binding
amounts
nM)
complexes in
performed
substantial
levels nexin
shown).
shown),
contains
Iz51-thrombin
1251-thrombin-protease medium
(not
apparent
usinq binding cellular
8-fold versus condisites affin-
Vol. 105, No. 2, 1982
BIOCHEMICAL
AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Figure 2. Disso iation of 1251-thrombin and thronbin from mouse cells. 11 6.5 x 10 s cells/35 mm dish) received thrombin (2.8 nM) or w I thrombin ce s ( (2.8 nM1. with and without the addition of thrombin (280 nM). in 2 ml of serum-free Dulbecco-Vogt modified Eagle's medium containing Hepes (10 mM) and ovalbumin (0.1%). After a 30 min incubation at 37'C, cells were rinsed twice using the serum-free medium described above and 2 ml of this medium was added to each dish. At increasing time intervals after this second incubation, cells were cooled to 4Y and were rinsed 3 times in ice-cold Dulbecco's phosphate buffered saline (D-PBS) and once in D-PBS containing phenylarsine oxide (0.1 mM). After a final rinse in D-PBS the amount of specifically bound I251-thrombin (linked plus unlinked1 remaining on one set of cell cultures was determined using sodium hydroxide solubilization as described (1,5). Also, the fraction of specifically-bound 1251-thrombin that was linked to protease nexin was determined immediately following the first 30 min incubation as described in Figure 1 and was equal to 0.20. The amount of unlabeled thrombin remaining on dishes was determined using the hirudin assay (-1, total cell-bound 1251-thrombin (I251-thrombin as described (5). plus I251-thrombin-protease nexin); (-1, cell-bound 1251-thrombin (after subtraction of the amount of cell-bound 1251-thrombin-protease nexin); (-1, cell-bound thrombin.
ity to
of
complexes
in
incubations
number
conditioned
in
of
fresh
cellular
thrombin-protease
medium These
medium.
hinding
sites
were
nexin
was
and
results the
by about
reduced
showed
apparent
dependent
on
a method
called
the
that
both
cellular conditions
70-fold
compared the
apparent
affinity used
of
for
1251-
binding
incubations. We previously picogram
amounts
ciation
rate
was about used
in
this
of twice
developed of
cell-hound
thromhin that
experiment
from for
thrombin the
cell
20%
(71. surface However,
1251-thromhin. ahout
the
of
specifically
hirudin
Figure
assay 2 shows
(measured at
for that
with the
cell-hound
the
thromhin thromhin
measuring the
disso-
hirudin
assay)
concentration was
BIOCHEMICAL
Vol. 105, No. 2, 1982 linked
to protease
that
only
about
nexin
16% of total
cell-dissociated tracted
after
the amount
point
in the
after
correction
tion
rate
for
thrombin
(hinding
data
used for
an incubation
at 37'C
dissociation
We showed
for
3 h (7).
curve.
I251-thrombin
was
Therefore, nexin
we sub-
from
each
As shown in Figure
(.066/min)
previously
nexin
I251-thrombin-protease
undissociable
unlinked
1).
I251-thrombin-protease
of cell-bound
for
Fig.
RESEARCH COMMUNICATIONS
1251-thrombin-protease
cell-hound
1251-thrombin
for
AND BIOPHYSICAL
nexin,
was about
2, the
dissocia-
the same as that
(.069/mini.
Discussion We recently preparations
showed
contained
diiodotyrosine site
for
taininq
that
diodotyrosine
was impaired
thrombin.
the hirudin
was measured.
fraction
Laemmli
gels
used to analyze
appears
to measure
ability
affinity
to be about
twice
affinity
appears
not linked
to be the
thrombin
l251to protease
Tris-containing
(7),
the hirudin
assay
much of the apparent
containing
of the different
for
linked
Because
of Iz51-thrombin
result
concentrations
of thrombin
(1).
the binding
sites
on the alkaline,
measured 1251-thrombin
mediated
of binding
formation
con-
cell-bound
nexin
amount
hindina
thrombin,
at low 1251-thrombin
the
affinities
for
total
11, protease
surface
of lP51-thrombin that
experiment
unstable
but
containing
to the cell
the binding
complex
in 1251-thrombin
Iz51-thrombin
to bind
apparent
were
unlinked
in the binding
of thrombin
(71.
we underestimated
the complexes
and thrombin
residues
(Figure
the
because
difference
of the molecules
of 1251-thromhin
increased
Previously
fraction
In the latter
As we show here
and significantly
nexin
its
appeared
assay.
of a significant
thrombin.
in
Additionally,
monoiodotyrosine
using
a large
methods
monoiodotyrosine of measurement
hinding.
If the
above hypothesis
thrombin
and thromhin
tracting
the undissociable
the
dissociation
the
cellular
by the hirudin
rates
should
then
be similar. fraction
rate (71,
of 1251-thromhin and thrombin
of unlinked
measurement
the dissociation
In Fiqure
of l251-thrombin
dissociation assay
is correct,
but not
of thrombin
accurate. 671
rate
2 we show that linked
dissociation
after
to protease
are almost linked
of I25I-
equal.
thrombin
subnexin, Because
is measured
from cells
is
Vol. 105, No. 2, 1982
BIOCHEMICAL
The reduced
binding
in conditioned binding
versus
sites
nexin
are
binding
for
formed
site
protease
apparent
in fresh
the apparent
via
competitive
binding.
medium
versus
that
presence nexin
since
he due to the presence
Since
lower
medium than
This
be linked
phenomenon
would
the
time
the high
affinity
much of the
to cell-released
occur
nexin
proteases
during
of 2 or more
proteases,
of 1251-thrombin-protease
of protease
to cell-released
medium,
Alternatively,
affinity
nexin
of 1251-thrombin-protease
in conditioned
medium might cellular
of Iz51-thrombin
levels
he measured.
the fraction
linked
that
to a lesser
linked
would
nexin extent
in
to Iz51-thrombin
he increased
cellular
release
due to the of protease
occurred. In summary,
affinity that
medium could
in conditioned
lowering
fresh
of Iz51-thrombin-protease
preferentially
thus
RESEARCH COMMUNICATIONS
affinity
complexes.
would
nexin
fresh
AND BIOPHYSICAL
results
presented
of lz51-thrombin of thromhin.
thrombin
containing
Our results
must be discriminated
of thrombin
with
cell
here
surface
indicate
that
monoiodotyrosine
show that in order binding
cellular
the cellular (71 is
binding
to accurately
binding
similar
of linked
determine
the
to and unlinked interaction
sites.
Acknowledgments This
work was supported
Institutes
of Health.
GM-07134.
We gratefully
technical
D.A.L. thank
by Research
Grant
was supported J.
W. Fenton
CA-12306
from the National
by predoctoral II
for
thrombin
training
grant
and G. Ryan for
assistance.
References D. 0. (1980) . Baker, J. B., Low, D. A., Simmer, R. L., and Cunningham, Cell 21, 37-45. D. D. (19811 2. Low, D. A., Baker, J. B., Koonce, W. C., and Cunningham, Proc. Nat. Acad. Sci. USA 78, 2340-2344. 3. Chen, L. B., and Buchanan, J. M. (19751 Proc. Nat. Acad. Sci. USA 72, 131-135. 4. Carney, D. H., Glenn, K. C., and Cunningham, D. D. (1978) J. Cell Physiol. 95, 13-22. 5. Carney, D. H., and Cunningham, D. 0. (1978) Cell 15, 1341-1349. 6. Glenn, K. C., Carney, D. H., Fenton, J. W. II, and Cunningham, D. D. (1980) J. Biol. Chem. 255, 6609-6616. D. D. (19821 J. Biol. Chem., in press. 7. Low, D. A., and Cunningham,
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9. 10. 11. 12. 13. 14.
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AND BIOPHYSICAL
RESEARCH COMMUNICATIONS
Low, D. A., Cunningham, D. D., Scott, R. W., and Baker, J. B. (1981) in Receptor-Mediated Binding and Internalization of Toxins and Hormones, eds. Middlebrook, J. L., and Kohn, L. D., pp. 259-270, Academic Press, New York. Fenton, J. W. II, Fasco, M. J., Stackrow, A. B., Aronson, D. L., Young, A. M., and Finlayson, J. S. (1977) J. Rio]. Chem. 252, 3587-3598. Martin, B. M., Wasiewski, W. W., Fenton, J. W. II, and Detwiler, T. C. (1976) Biochemistry 15, 4886-4893. Weber, K., and Osborne, M. (1969) J. Biol. Chem. 244, 4406-4412. Knauer, D. J., and Cunningham, 0. D. (1982) Proc. Nat. Acad. Sci. USA, in press. Baker, J. B., Simmer, R. L., Glenn, K. C., and Cunningham, D. D. (1979) Nature 278. 743-745. Scatchard,-G. (1949) Ann. N.Y. Acad. Sci. 51, 660-672.
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