- Email: [email protected]
Stabilization of the plasmin digestion products of fibrinogen and fibrin by calcium ions
STABILIZATION OF THE PLASMIN FIBRINOGEN AND FIBRIN
DIGESTION PRODUCTS BY CXLCIU>f IONS
OF
G.G. LINDSEY, G. BROWN and 3. FRANKS* L.R. PURVES, University of Department-of Chemical Pathology, 7925, Observatory, Cape Town Medical School, Republic of South Africa Cape Town, and "Veterans Administration Hospital and Clinical University of Colorado, Research Centre, United States of America. Denver, (Received
11.12.1977.
Xccepted
by
Editor
R.F.
Doolittle)
ABSTRACT The role of calcium in the stabilization of fibrinoD-monogen and fibrin plasmin digestion products, The largest D mer and D-dimer has been studied. are both stable to further fragment, Di", and D-dimer plasmin degradation in the presence of calcium ions. Chelation of calcium leads to further plasmin digestion due to sequential cleavage of peptides from the This stabilization C-terminal end of the y-chain. is due to calcium ions and not to occupation of the All the digestion products of Dcross-link site. dimer were also found to be stabilized by the readdition of calcium ions. INTRODUCTION
The ducts been
digestion
- fragments recognised
described linked geneous scent link
of
D and
lysine site
The
i.e.
fragment
(I).
It was
by
plasmin
be
yields
Heterogeneity
with
many
corresponding
D-dimer,
D can
analogue,
(2).
E
as a problem
(Z-5).
fibrin,
fibrinogen
subspecies
digestion
is always
prepared
by
having
product
homogeneous
proposed
into that
main
fragment
incorporation
dansyl-cadaverine therefore
of
two
the the
D has been
from
and of
pro-
cross-
a homothe
vacant
fluorecross-
*Dl refers to the product of plasmin digestion of fibrinogen the presence of Ca2+. Smaller D fragments are numbered in order of decreasing molecular weight, D2 to D5. 477
to
resistance in
475
CALCIW
further
plasmin
cross-link
D
(6,7)
had
showed
homogeneous in
the
this
fragment could
also
be
further
plasmin
we
the
showed
linking
and
formed
by
from
calcium in
the
mixture:
40 Ploug
units
This
digestion
of
that
a
fibrinogen
ions
with
D formed
in
to a terminal
smaller
fibrinogen
absen-
confirmed
fragment
93,000)
by
of EGTA.
fragment
digestion could
D and
effects
with
also
In
this
be report
D-dimer
due
D
in the
to cross-
ions. AND
from
METHODS fresh
of
5 mg
fibrinogen
human
(Leo)
1 minute
After
plasma
5 mM
by
Aliquots
were
reaction
stopped
an equal
volume
Trasylol
(Bayer),
100 mM
EGTA
Titration Radiometer
and
of
was
plasmin
pH
released
digestion 200
volume
mg
acids
ammonium
(Behring), 20 ml.
2X
the
the
was
of
CaC12,
clot,
7.4,
the
digestion
calcium
out
et
al
in a (IO).
fibrinogen 5 mM
prepara-
calcium.
bovine
0.15M formed
ions
5 mM.
carried
50 units
5 mM
and
Further of
pH
to avoid
concentration
presence
The
(Sigma), Tris,
containing
SDS,
a human
fibrinogen,
at 37'C.
intervals
by Mihalyi
clotting
in
added
at
chelation
- final
amino
by
O.IM
units/ml.
by
as described
prepared
concentrate 7.4,
out
(neutralised)
mixture:
F13
Kallikrein
carried
Autotitrator
D-dimer
Reaction
500
Dl was
was
taken of
out
plasminogen
NaCl,
CaC12
13 activity.
fragment
carried
2 mg
in 0.15M
2 ml.
with
was
fibrinogen,
urokinase
Factor
4 mg
the
between
calcium
the
of (9)
calcium
presence
volume
Tris,
the
D-dimer
to calcium
prepared
Timan
ions.
plasmin
of in
digestion
weight
directly
distinguish
digestion
Reaction
tion
of
fragment
to demonstrate
of
digestion
presence
D formed
of
fractionation.
Plasmin
with
of the
activity
and
chelation
80,000.
of
due
was
(8)
weight
timed
and
those
Fibrinogen
of
occupation
the
al
(molecular
digested the
in
Haverkate
MATERIALS
sulphate
by
fragment
et
be
plasmin
calcium
of EGTA
formed to
that
absence
investigate
presence
D
D could
prepared
in
x-01. 12.X0.3
anticlotting
Lugovskoi
D of molecular
plasmin
the
calcium.
to further of
on
relative
led
of
and
presence
is conferred
fragment
fragment
presence
led
the
that
and
finding
ECTA
out
activity
calcium
ST.~BILIZATION
(2).
carried
enhanced
ce of
degradation
site
Studies
ION
at
thrombin,
NaCl,
0.1M
37'C
after
18
'hours,
plasmin
was
for
at
39 plasminogen
(Sigma),
CaC12
NaCl,
in 0.153
digested
mixture
cellulose IO nY
phosphate
lar-sieved
on any
ted
from
at pH
volume
60
and
to
retitration
to pH
presence
column The
remo
NaCl,
0.
was
were 2%
of
same
separate
buffer, ?;0 by
adding
rapid
the
reaction
fibrinogen
subsequent the
Z-
Trasylol.
clotting
for
nolecu-
added.
and
a
equilibra-
5 n>! with
and as
to was
containing by
in
then
started
removed
SDS
prepared
the
was was
dansyl-cadaverine were
e E and
:f Tris
plasnin
The
on a DE 52
gradient
15 mg*
concentration
of
”
5 n?!
20 ml.
x 2 5 cm)
reaction
Aliquots
mM
dialysis,
(100
The
volume
Conditions
volume
to
preactivated
7.4.
7.4,
D-diner;
0.153
a final
2.45
(II)
with
1.1
(Leo),
after
NaCl
digested mixture:
uroXinase
a 0 - 0.5X
8.6
4B
D-dimer
of
digestion.
pH
pg
an equal
Fluorescent
units pH
using
occurred,
EGTA
the
colunn
in 5 millCaC12,
neutralised
with
Ploug
and
reaction
Digestion
Tris,
D-monomer.
7.4
extensively
chromatographed
buffer,
digestion
stopped
500
a Sepharose
1.5 ml
further
37'C.
0.1X
was
(Khatman)
diner
washed
homogenised,
18 hours
in
plasmin
non-fluorescent
D-dimer. Polyacrylamide SDS
(SDS-PAGE)
(gradient Blue
5-20%)
(Sigma).
state
with
gel
was
(12) The
and
of
optical
density.
fibrinogen
the method
out
on
the
presence
stained
bands
were
quantitated
flat-bed
was
Two-dimensional (13)
with
with
The
scanner.
regarded
SDS-PAGE
of 0.1%
slab
were
or D-dimer
of O'Farrel
in
density-gradient
thegals
protein
a Vitratron
tration
electrophoresis
carried
Coomassie in
the
initial as
was
wet
concen-
100%
of
carried
f3-mercaptoethanol
gels
in
total out
the
by
second
dimension. Analytical model were pH
ultracentrifugation
E ultracentrifuge centrifuged
7.4,
5 m>l calcium
homogeneous standards
D-dimer of
equipped
in buffers and and
was with
containing 50
U/ml
Dl-monomer
carried
UV
out
The
optics.
0.153
on
a Beckman samples
O.Ol?l Tris,
NaC1,
Electrophoretically
Trasylol. preparations
were
used
as
comparison.
RESULTS In the gen
yielded
presence
of 5 m?l Ca
a homogeneous
2+
fragment
plasnin Dl
even
digestion after
of
fibrino-
prolonged
perio-
ds of were
formed We
after
showed
min-mediated occurred moles et
by
uptake
of NaOH
fibrinogen fragment
consumed/mole
that
no
D-subspecies
that
Dl
no
the
further
plas-
digestion
E was
complete
in
agreement
with
with
excess
fibrinogen
and
to monitor
at 40 Mihalyi
(10). of
degradation to D4,
plasmin
action
calcium
occur lysis
chelators
result
of
those
in turn
in molecular
the
cleavage
due
from
were
(Fig. thus
2)
from
weight
of
of peptides
D dimer
that
DI.
these D3 We
fragments,
of
with and
other
BioRad
cleavages
arose
from
confirmed Dl
in
digestion.
obtained
fragments from
resulted
modification
phosphate
fragment
arose
EGTA
of smaller
to EGTA
citrate,
seen
order,
derived
results
EDTA,
be
to a series
not
similar
viz.
of D2 which
ions Dl
Dl was
It can
in a specific
decrease
to
of
since
100.
calcium
fragment
identical
digestion
Chelex
the
of
Further
the
of of
1) showed
digestion.
measuring
release
Chelation
02
(Fig.
48-hours
digestion
once
NaOH
al
the
SDS-PAGE
digestion.
hydrothat
to D4 was
the y-chain
FIG.
(see
a
later).
1
Fibrinogen SDS-PAGE of plasmin digestion of fibrinogen the presence of 5mN calcium ions
X Y
DI
Plasmin
E
Peptides
0
15
30
MINUTES
I
2
4 HOURS
48
in
X diner
result
similar further
SDS-PAGE smaller
after
(Fig.
4)
fragments,
(Fig.
3)
calcium: showed 01
was
ions that
to
obtained
had
by
.?igesting
been
chelated
5::
excess
xas
digested
to
a
D-dimer
HOURS
MINUTES
6.
mc
UM
EC
C.
I I
\
MINUTES
series
EGT.I. of
5.
FIG.
CAL
D-
Total D/ _/’ /.?
2
The effect of calciun on the digestion of 5 UM fibrinogen. Calcium was added one minute after plasmin in (_A) and (B) and 5 mhl EGTA in (C). The effect of calcium ion renoval on a comoleted digest is shown by EGTh addition after 60 minutes in Legend : (A). - fibrinogen, Fibg 1 ,2,3,k - various D Y and E specjes, digestion products.
vo1.12,50.3
EC
A
B.
C
FIG.
\
l\
Digestion of D-dimer in the presence of 5 mM EGTA (A) and its inhibition by the readdition of calcium ions (B). Note that the fragments D2 and D3 are also stabilized after calcium addition as well as the remaining D-dimer.
Total
‘Ddimer
1,
i
\ \
i
/l+-MINUTES
D-dimer
3
!alJRs
-
FIG.
Dl - 5
4
SDS-PAGE of plasmin digestion of D-dimer in the presence of EGTA.
0
5
IO 20
MINUTES
40
I,53
5
HOURS
7
one
or both
fijrin aui
conoaers
zation link
that by
in vbic‘n both t'ne stability
calcium
sites,
Labelled
we
substituted
on
digrstee?
3
(Fig.
ions
The
the
siniiar
the
of
s?are
our
that
than
was
carried
-32 r 2 cc:c?ierl
dans?l-zadav2rir.e 13.
-1 ‘l?-0. ROP.-i_L___2ZSC-
Yhis +
is
material r~~erlal
5j.
dimer
-
f-D' D2-5
XL-peptide
._.: . 0
2
_... ...’
510204090
0 FIG.
2
and
of 'both 5rojs-
usin_; fluor2scent---
Factor
tne
**‘e:e
of
qi r_de 2 3 d t>2 -2 stab iii-
to occa>ati~n
anaIogu2
to
stt;
sites
experiments
&In-14 by
cross-linking
our
D-dimer
lysin2
manner
natural
cross-link
rath2r
repeated
D dimer.
in
in
Ts ensure
(iLj.
on D-diner
to show
f-D
'be in-solved
may
5
10
20 40
WYINUTES
5
SDS-PAGE of plasmin digestion of fluorescent D-dimer. The stained gel is shs;_n in
dS
E
Dl-5
FIG.
D-dimer
-76ooo -42ooo -35oc0 -26500 -23ooo
12000
6
Two-dimensional SDS-PAGE of a partial D-dimer digest. The first dimension contained SDS, the second had B-mercaptoethanol added as well. a, B and y refer to the a, 6 and y chains. y-y and yl tu 5 refer to the y chain of Ddimer and Dl - 5 respectively. Arrows show fluorescent spots. A diagram of the first dimension gel (c.f. 20 minute digest in Fig. 4) is shown above the gel. The geminal appearance of some of the spots is an artefact. A schematic diagram is also shown (left>.
Two-dimensional and
the
various
molecular from
weight.
slightly
slightly dimer
The
larger
larger
(y-y)
cleavage, As
the
the
the
y-chain
were
fluorescent.
case
of Dl
confirmed
the
presence
(Fig.
by
the
cium
to a free
only
was
tion
products
3).
calcium
further
concentration
digestion
were
Analytical
also
equal
criterion
of
the
cleavage
of D-dimer
in size to
The
Y-chain of
occurred
role
5 mM
same
product
of
in
calcium
of D-dimer
readdition of
in
of excess
(Fig.
inhibited
cal-
Not
3B).
but
the
diges-
stabilized.
ultracentrifugation
containing
initial
digestion
by
the
daltons)
daltons).
the
plasmin
D-diner
of
decreased
protective
inhibited
that
3 chains
(43,000
from
The
that
was
showed
(12,000
digestion,
fact
of EGTA
S-chain
(~1)
Dl,
manner
6), c( and
progressively
a-chain
in the
was
(by the
(Fig. all had
y-chain
than
than
and
an ordered
sample
SDS-PAGE
D fragments
amounts
SDS-PAGE
revealed
that
the material
lization
with
EGTA
of
and
digested
Dl
10 minute
still
in
a partly
dimer
c.f.
was
resulted
of
and
D2 monomer
digest
in Fig.
Further
dimeric.
the material
D-dimer
becoming
38)
destabi-
completely
monomeric. DISCUSSION Our
results
stabilization recent
observation
3 high that
affinity
this
to Dl in
and
the
cium
and by
binding
(2-5)
concentrations
stability direct
13 activity ly due calcium mation
of
must the
cross-link
for
fibrinogen
suggests
of be
by
due
the
which
reduction
therefore
hold
C-terminal
end
are
to variable
of
of
y-chain
Dl
and
the
insusceptible
weight
(Fig.
D-diner
y-chain, to plasmin
The
(2) is the
required
in molecular
the
cal-
as plasmin
calcium.
Dl
also
binding
D reported
as well
absence
has
therefore
calcium
fragment
preparation
of
is
that
about
that The
(15)
fluorescently-labelled ions
(6)
ions.
calcium
in
Timan
calcium
therefore
its
digestion
site,
al
and
to
be brought
stored
and
The
(16).
ions that
in
calcium
to plasmin
et
could
used
of D-dimer
is due
heterogeneity
of samples
result
of Haverkate
sites may
The
D-dimer.
literature
those D-dimer
Marguerie
stabilization
contamination
the
confirm
of Dl
for
is entireThe
5). in
such
which
Factor
a confor
contains
attack.
Dl
ai-*
i I:s t p a r a 1;1 e 5 *y SDS-PA.GX
*qirtgslly
c u 1 a r ::e i p h t for The
fluorescent
ly larger
than
conpared 36,000
with
peptide
lently been
action
y chain
Eroo? the XOlE?
Dl-like
sita
for
lG,OOO
dsltons,
not
the
products
xeizht
cular
Dl nonomer,
from
3 Kinimum
around
together licked
cieaved
5t
be
y-chain 5 chain,
cross-link
cross-link (17)
il_,o le-
ii3,OOi) (Fig, molecular
the
i .i slight-
released which
6)
weight
cr;iss-lic:i.
agrees
cith
17t h.e r
(17).
The D-dioer
the
uould
criteria
the
Thus
(2).
th.us 5 " g g e 3 f I n .g a :2w
;!.e 2 r 3 :s.s - 7. j L n k peptice,
be
is present
still
necessary
in another
only
interaction
ultracentrifugation
demonstrated
peptide
is not is
since
dimer as
may
part
at a stage by
binds that of
shows when
tightiy
to
the
the non-covalent the
molecule.
that
the
Since
SDS-PAGE.
holding
;ile
a non-co.la-
cross-iir?:i :?s the
parent D-dimer
clea::ad molacuie inrer-
CALCTLTI
13.
O'FARREL, P.H.: electrophoresis 1975.
TO?; STXBTLIZATICT
Vo1.12,Xo.-i
High resolution of two-dimensional .I. Biol. Chem. 250, of proteins.
14.
DOOLITTLE, R.F.: fibrin conversion.
Structural aspects of Adv. in Prot. Chem.
15.
MARGUERIE, G., CHAGNIEL, G. and of calcium to bovine fibrinogen, 490, 94, 1977.
16.
TAKAGI, Purification T. and KONISHI, K.: properties of fibrin stabilizing factor. Acta 271, 363, 1972. Biophys.
17.
LINDSEY, G.G., BROWN, the fibrin cross-link Thrombosis Research.
the 27,
4007,
fibrinogen I, 1973.
to
The binding SUSCILLON, M.: Biochim. Biophys. Acta
G. and PURVES, L.R.: peptide. Manuscript
and some Biochim.
Isolation submitted
of to
DIGESTION PRODUCTS BY CXLCIU>f IONS
OF
G.G. LINDSEY, G. BROWN and 3. FRANKS* L.R. PURVES, University of Department-of Chemical Pathology, 7925, Observatory, Cape Town Medical School, Republic of South Africa Cape Town, and "Veterans Administration Hospital and Clinical University of Colorado, Research Centre, United States of America. Denver, (Received
11.12.1977.
Xccepted
by
Editor
R.F.
Doolittle)
ABSTRACT The role of calcium in the stabilization of fibrinoD-monogen and fibrin plasmin digestion products, The largest D mer and D-dimer has been studied. are both stable to further fragment, Di", and D-dimer plasmin degradation in the presence of calcium ions. Chelation of calcium leads to further plasmin digestion due to sequential cleavage of peptides from the This stabilization C-terminal end of the y-chain. is due to calcium ions and not to occupation of the All the digestion products of Dcross-link site. dimer were also found to be stabilized by the readdition of calcium ions. INTRODUCTION
The ducts been
digestion
- fragments recognised
described linked geneous scent link
of
D and
lysine site
The
i.e.
fragment
(I).
It was
by
plasmin
be
yields
Heterogeneity
with
many
corresponding
D-dimer,
D can
analogue,
(2).
E
as a problem
(Z-5).
fibrin,
fibrinogen
subspecies
digestion
is always
prepared
by
having
product
homogeneous
proposed
into that
main
fragment
incorporation
dansyl-cadaverine therefore
of
two
the the
D has been
from
and of
pro-
cross-
a homothe
vacant
fluorecross-
*Dl refers to the product of plasmin digestion of fibrinogen the presence of Ca2+. Smaller D fragments are numbered in order of decreasing molecular weight, D2 to D5. 477
to
resistance in
475
CALCIW
further
plasmin
cross-link
D
(6,7)
had
showed
homogeneous in
the
this
fragment could
also
be
further
plasmin
we
the
showed
linking
and
formed
by
from
calcium in
the
mixture:
40 Ploug
units
This
digestion
of
that
a
fibrinogen
ions
with
D formed
in
to a terminal
smaller
fibrinogen
absen-
confirmed
fragment
93,000)
by
of EGTA.
fragment
digestion could
D and
effects
with
also
In
this
be report
D-dimer
due
D
in the
to cross-
ions. AND
from
METHODS fresh
of
5 mg
fibrinogen
human
(Leo)
1 minute
After
plasma
5 mM
by
Aliquots
were
reaction
stopped
an equal
volume
Trasylol
(Bayer),
100 mM
EGTA
Titration Radiometer
and
of
was
plasmin
pH
released
digestion 200
volume
mg
acids
ammonium
(Behring), 20 ml.
2X
the
the
was
of
CaC12,
clot,
7.4,
the
digestion
calcium
out
et
al
in a (IO).
fibrinogen 5 mM
prepara-
calcium.
bovine
0.15M formed
ions
5 mM.
carried
50 units
5 mM
and
Further of
pH
to avoid
concentration
presence
The
(Sigma), Tris,
containing
SDS,
a human
fibrinogen,
at 37'C.
intervals
by Mihalyi
clotting
in
added
at
chelation
- final
amino
by
O.IM
units/ml.
by
as described
prepared
concentrate 7.4,
out
(neutralised)
mixture:
F13
Kallikrein
carried
Autotitrator
D-dimer
Reaction
500
Dl was
was
taken of
out
plasminogen
NaCl,
CaC12
13 activity.
fragment
carried
2 mg
in 0.15M
2 ml.
with
was
fibrinogen,
urokinase
Factor
4 mg
the
between
calcium
the
of (9)
calcium
presence
volume
Tris,
the
D-dimer
to calcium
prepared
Timan
ions.
plasmin
of in
digestion
weight
directly
distinguish
digestion
Reaction
tion
of
fragment
to demonstrate
of
digestion
presence
D formed
of
fractionation.
Plasmin
with
of the
activity
and
chelation
80,000.
of
due
was
(8)
weight
timed
and
those
Fibrinogen
of
occupation
the
al
(molecular
digested the
in
Haverkate
MATERIALS
sulphate
by
fragment
et
be
plasmin
calcium
of EGTA
formed to
that
absence
investigate
presence
D
D could
prepared
in
x-01. 12.X0.3
anticlotting
Lugovskoi
D of molecular
plasmin
the
calcium.
to further of
on
relative
led
of
and
presence
is conferred
fragment
fragment
presence
led
the
that
and
finding
ECTA
out
activity
calcium
ST.~BILIZATION
(2).
carried
enhanced
ce of
degradation
site
Studies
ION
at
thrombin,
NaCl,
0.1M
37'C
after
18
'hours,
plasmin
was
for
at
39 plasminogen
(Sigma),
CaC12
NaCl,
in 0.153
digested
mixture
cellulose IO nY
phosphate
lar-sieved
on any
ted
from
at pH
volume
60
and
to
retitration
to pH
presence
column The
remo
NaCl,
0.
was
were 2%
of
same
separate
buffer, ?;0 by
adding
rapid
the
reaction
fibrinogen
subsequent the
Z-
Trasylol.
clotting
for
nolecu-
added.
and
a
equilibra-
5 n>! with
and as
to was
containing by
in
then
started
removed
SDS
prepared
the
was was
dansyl-cadaverine were
e E and
:f Tris
plasnin
The
on a DE 52
gradient
15 mg*
concentration
of
”
5 n?!
20 ml.
x 2 5 cm)
reaction
Aliquots
mM
dialysis,
(100
The
volume
Conditions
volume
to
preactivated
7.4.
7.4,
D-diner;
0.153
a final
2.45
(II)
with
1.1
(Leo),
after
NaCl
digested mixture:
uroXinase
a 0 - 0.5X
8.6
4B
D-dimer
of
digestion.
pH
pg
an equal
Fluorescent
units pH
using
occurred,
EGTA
the
colunn
in 5 millCaC12,
neutralised
with
Ploug
and
reaction
Digestion
Tris,
D-monomer.
7.4
extensively
chromatographed
buffer,
digestion
stopped
500
a Sepharose
1.5 ml
further
37'C.
0.1X
was
(Khatman)
diner
washed
homogenised,
18 hours
in
plasmin
non-fluorescent
D-dimer. Polyacrylamide SDS
(SDS-PAGE)
(gradient Blue
5-20%)
(Sigma).
state
with
gel
was
(12) The
and
of
optical
density.
fibrinogen
the method
out
on
the
presence
stained
bands
were
quantitated
flat-bed
was
Two-dimensional (13)
with
with
The
scanner.
regarded
SDS-PAGE
of 0.1%
slab
were
or D-dimer
of O'Farrel
in
density-gradient
thegals
protein
a Vitratron
tration
electrophoresis
carried
Coomassie in
the
initial as
was
wet
concen-
100%
of
carried
f3-mercaptoethanol
gels
in
total out
the
by
second
dimension. Analytical model were pH
ultracentrifugation
E ultracentrifuge centrifuged
7.4,
5 m>l calcium
homogeneous standards
D-dimer of
equipped
in buffers and and
was with
containing 50
U/ml
Dl-monomer
carried
UV
out
The
optics.
0.153
on
a Beckman samples
O.Ol?l Tris,
NaC1,
Electrophoretically
Trasylol. preparations
were
used
as
comparison.
RESULTS In the gen
yielded
presence
of 5 m?l Ca
a homogeneous
2+
fragment
plasnin Dl
even
digestion after
of
fibrino-
prolonged
perio-
ds of were
formed We
after
showed
min-mediated occurred moles et
by
uptake
of NaOH
fibrinogen fragment
consumed/mole
that
no
D-subspecies
that
Dl
no
the
further
plas-
digestion
E was
complete
in
agreement
with
with
excess
fibrinogen
and
to monitor
at 40 Mihalyi
(10). of
degradation to D4,
plasmin
action
calcium
occur lysis
chelators
result
of
those
in turn
in molecular
the
cleavage
due
from
were
(Fig. thus
2)
from
weight
of
of peptides
D dimer
that
DI.
these D3 We
fragments,
of
with and
other
BioRad
cleavages
arose
from
confirmed Dl
in
digestion.
obtained
fragments from
resulted
modification
phosphate
fragment
arose
EGTA
of smaller
to EGTA
citrate,
seen
order,
derived
results
EDTA,
be
to a series
not
similar
viz.
of D2 which
ions Dl
Dl was
It can
in a specific
decrease
to
of
since
100.
calcium
fragment
identical
digestion
Chelex
the
of
Further
the
of of
1) showed
digestion.
measuring
release
Chelation
02
(Fig.
48-hours
digestion
once
NaOH
al
the
SDS-PAGE
digestion.
hydrothat
to D4 was
the y-chain
FIG.
(see
a
later).
1
Fibrinogen SDS-PAGE of plasmin digestion of fibrinogen the presence of 5mN calcium ions
X Y
DI
Plasmin
E
Peptides
0
15
30
MINUTES
I
2
4 HOURS
48
in
X diner
result
similar further
SDS-PAGE smaller
after
(Fig.
4)
fragments,
(Fig.
3)
calcium: showed 01
was
ions that
to
obtained
had
by
.?igesting
been
chelated
5::
excess
xas
digested
to
a
D-dimer
HOURS
MINUTES
6.
mc
UM
EC
C.
I I
\
MINUTES
series
EGT.I. of
5.
FIG.
CAL
D-
Total D/ _/’ /.?
2
The effect of calciun on the digestion of 5 UM fibrinogen. Calcium was added one minute after plasmin in (_A) and (B) and 5 mhl EGTA in (C). The effect of calcium ion renoval on a comoleted digest is shown by EGTh addition after 60 minutes in Legend : (A). - fibrinogen, Fibg 1 ,2,3,k - various D Y and E specjes, digestion products.
vo1.12,50.3
EC
A
B.
C
FIG.
\
l\
Digestion of D-dimer in the presence of 5 mM EGTA (A) and its inhibition by the readdition of calcium ions (B). Note that the fragments D2 and D3 are also stabilized after calcium addition as well as the remaining D-dimer.
Total
‘Ddimer
1,
i
\ \
i
/l+-MINUTES
D-dimer
3
!alJRs
-
FIG.
Dl - 5
4
SDS-PAGE of plasmin digestion of D-dimer in the presence of EGTA.
0
5
IO 20
MINUTES
40
I,53
5
HOURS
7
one
or both
fijrin aui
conoaers
zation link
that by
in vbic‘n both t'ne stability
calcium
sites,
Labelled
we
substituted
on
digrstee?
3
(Fig.
ions
The
the
siniiar
the
of
s?are
our
that
than
was
carried
-32 r 2 cc:c?ierl
dans?l-zadav2rir.e 13.
-1 ‘l?-0. ROP.-i_L___2ZSC-
Yhis +
is
material r~~erlal
5j.
dimer
-
f-D' D2-5
XL-peptide
._.: . 0
2
_... ...’
510204090
0 FIG.
2
and
of 'both 5rojs-
usin_; fluor2scent---
Factor
tne
**‘e:e
of
qi r_de 2 3 d t>2 -2 stab iii-
to occa>ati~n
anaIogu2
to
stt;
sites
experiments
&In-14 by
cross-linking
our
D-dimer
lysin2
manner
natural
cross-link
rath2r
repeated
D dimer.
in
in
Ts ensure
(iLj.
on D-diner
to show
f-D
'be in-solved
may
5
10
20 40
WYINUTES
5
SDS-PAGE of plasmin digestion of fluorescent D-dimer. The stained gel is shs;_n in
dS
E
Dl-5
FIG.
D-dimer
-76ooo -42ooo -35oc0 -26500 -23ooo
12000
6
Two-dimensional SDS-PAGE of a partial D-dimer digest. The first dimension contained SDS, the second had B-mercaptoethanol added as well. a, B and y refer to the a, 6 and y chains. y-y and yl tu 5 refer to the y chain of Ddimer and Dl - 5 respectively. Arrows show fluorescent spots. A diagram of the first dimension gel (c.f. 20 minute digest in Fig. 4) is shown above the gel. The geminal appearance of some of the spots is an artefact. A schematic diagram is also shown (left>.
Two-dimensional and
the
various
molecular from
weight.
slightly
slightly dimer
The
larger
larger
(y-y)
cleavage, As
the
the
the
y-chain
were
fluorescent.
case
of Dl
confirmed
the
presence
(Fig.
by
the
cium
to a free
only
was
tion
products
3).
calcium
further
concentration
digestion
were
Analytical
also
equal
criterion
of
the
cleavage
of D-dimer
in size to
The
Y-chain of
occurred
role
5 mM
same
product
of
in
calcium
of D-dimer
readdition of
in
of excess
(Fig.
inhibited
cal-
Not
3B).
but
the
diges-
stabilized.
ultracentrifugation
containing
initial
digestion
by
the
daltons)
daltons).
the
plasmin
D-diner
of
decreased
protective
inhibited
that
3 chains
(43,000
from
The
that
was
showed
(12,000
digestion,
fact
of EGTA
S-chain
(~1)
Dl,
manner
6), c( and
progressively
a-chain
in the
was
(by the
(Fig. all had
y-chain
than
than
and
an ordered
sample
SDS-PAGE
D fragments
amounts
SDS-PAGE
revealed
that
the material
lization
with
EGTA
of
and
digested
Dl
10 minute
still
in
a partly
dimer
c.f.
was
resulted
of
and
D2 monomer
digest
in Fig.
Further
dimeric.
the material
D-dimer
becoming
38)
destabi-
completely
monomeric. DISCUSSION Our
results
stabilization recent
observation
3 high that
affinity
this
to Dl in
and
the
cium
and by
binding
(2-5)
concentrations
stability direct
13 activity ly due calcium mation
of
must the
cross-link
for
fibrinogen
suggests
of be
by
due
the
which
reduction
therefore
hold
C-terminal
end
are
to variable
of
of
y-chain
Dl
and
the
insusceptible
weight
(Fig.
D-diner
y-chain, to plasmin
The
(2) is the
required
in molecular
the
cal-
as plasmin
calcium.
Dl
also
binding
D reported
as well
absence
has
therefore
calcium
fragment
preparation
of
is
that
about
that The
(15)
fluorescently-labelled ions
(6)
ions.
calcium
in
Timan
calcium
therefore
its
digestion
site,
al
and
to
be brought
stored
and
The
(16).
ions that
in
calcium
to plasmin
et
could
used
of D-dimer
is due
heterogeneity
of samples
result
of Haverkate
sites may
The
D-dimer.
literature
those D-dimer
Marguerie
stabilization
contamination
the
confirm
of Dl
for
is entireThe
5). in
such
which
Factor
a confor
contains
attack.
Dl
ai-*
i I:s t p a r a 1;1 e 5 *y SDS-PA.GX
*qirtgslly
c u 1 a r ::e i p h t for The
fluorescent
ly larger
than
conpared 36,000
with
peptide
lently been
action
y chain
Eroo? the XOlE?
Dl-like
sita
for
lG,OOO
dsltons,
not
the
products
xeizht
cular
Dl nonomer,
from
3 Kinimum
around
together licked
cieaved
5t
be
y-chain 5 chain,
cross-link
cross-link (17)
il_,o le-
ii3,OOi) (Fig, molecular
the
i .i slight-
released which
6)
weight
cr;iss-lic:i.
agrees
cith
17t h.e r
(17).
The D-dioer
the
uould
criteria
the
Thus
(2).
th.us 5 " g g e 3 f I n .g a :2w
;!.e 2 r 3 :s.s - 7. j L n k peptice,
be
is present
still
necessary
in another
only
interaction
ultracentrifugation
demonstrated
peptide
is not is
since
dimer as
may
part
at a stage by
binds that of
shows when
tightiy
to
the
the non-covalent the
molecule.
that
the
Since
SDS-PAGE.
holding
;ile
a non-co.la-
cross-iir?:i :?s the
parent D-dimer
clea::ad molacuie inrer-
CALCTLTI
13.
O'FARREL, P.H.: electrophoresis 1975.
TO?; STXBTLIZATICT
Vo1.12,Xo.-i
High resolution of two-dimensional .I. Biol. Chem. 250, of proteins.
14.
DOOLITTLE, R.F.: fibrin conversion.
Structural aspects of Adv. in Prot. Chem.
15.
MARGUERIE, G., CHAGNIEL, G. and of calcium to bovine fibrinogen, 490, 94, 1977.
16.
TAKAGI, Purification T. and KONISHI, K.: properties of fibrin stabilizing factor. Acta 271, 363, 1972. Biophys.
17.
LINDSEY, G.G., BROWN, the fibrin cross-link Thrombosis Research.
the 27,
4007,
fibrinogen I, 1973.
to
The binding SUSCILLON, M.: Biochim. Biophys. Acta
G. and PURVES, L.R.: peptide. Manuscript
and some Biochim.
Isolation submitted
of to