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Thrombin activity in pulmonary emboli obtained at autopsy
THROMBOSIS RESEARCH 59; 879-882,199O 00493848/90 $3.00 + .OO Printed in the USA. Copyright (c) 1990 Pergamon Press pk. All rights reserved.
COMMUNICATION
BRIEF
THROHBIN
ACTIVITY
D.W.T.
Farstad*,
I.N.
IN
PULMONARY
Nielsen
**
EMEOLI
, R.
OBTAINED ***
Ruyter
and
AT
AUTOPSY
H.C.
Department of Department of,$athology, Rikshospitalet*, and Haemato&@cal Research Laboratory, Aker Hospital Hospital , Oslo, Norway
(Received
23.3.1990;
accepted
in revised form 4.7.1990
Godal
***
Medicine, Ullevsl
by Editor U. Abildgaard)
INTRODUCTION Thrombin is continuously generated during thrombus formation The rapidly immobilised by the fibrin meshwork (1,2,3). part of fibrin-immobilised thrombin is gradually released essentially by inactivated by circulating antithrombins, and antithrombin III (4). However, a minor fraction of thrombin is retained by the thrombus and may induce further fibrin formation This minor fraction of enzymatically active thrombin (5,6). as fibrinolytic degradation seems to be tightly bound to fibrin, releases thrombin linked to fibrin fragments (5).
and major
Below, obtained A (FPA)
we at upon
have studied thrombin activity in autopsy through analysis of generated incubation with fibrinogen.
AND
MATERIALS
pulmonary emboli fibrinopeptide
METHODS
Reagents. Buffers: Diemal-Na (2)
(1) 0.028
Tris-HCl-buffer,
Buffered
saline
volume of one solution (0.15
Key
Modified mol/l,
words:
diemal NaCl
0.15
solution modified M).
Pulmonary
M, (pH diemal
emboli,
buffer 0.126 pH
(pH mol/l
7.35) consisted of and HCl 0.1 mol/l.
7.40. 7.35, buffer
thrombin
879
0.15 to
M) nine
activity.
obtained volumes
by of
adding saline
Vol. 59, No. 5
THROMBIN IN PULMONARY EMBOLI
Soybean
trypsin
inhibitor
Sigma (R) was dissolved solution and stored at
Aprotinin kusen,
(NaN3),
Hirudin
2000 to
Bentonite
(R))
Lyophilized
preparation
diemal
buffer
20.000
KIE/ml,
to
from
obtain
Bayer
a
1%
Lever-
Germany.
Na-azid
solution
modified
(1 rasylol
sulphate
West
(SBTI):
in 4'C.
Merck,
Darmstadt,
Sigma concentration
AT-U, a
50
mg
of
Germany.
dissolved 20 AT-U/ml.
Kebo-Grave,
sulphate,
Oslo, Norway; Tris-HCl-buffer.
(R), of
West
bentonite
in
physiological
Yellowstone sulphate
Western
dissolved
saline
Bentonite, in 0.5
ml
was prepared by precipitation of titrated plasma with beta-alanine as described by Jakobsen and Kierulf (7) followed extensive dialysis buffered solution, to against saline by remove contaminating FPA, and subsequently stored in aliquots of 5 ml at -7OOC.
Fibrinogen
Pulmonary
Experimental Pulmonary 12-36 hours All
the
emboli
from
four
patients
obtained
autopsy.
at
procedures. emboli were post mortem. patients
died
obtained from
from
embolization
four
patients of
at
pulmonary
None had received anticoagulant or fibrinolytic with a diameter of 0.5-1.0 cm were cut into slices washed in buffered saline solution and stored at experiments; frozen sections from such slices Five to ten sections of 25 micrometer thickness each test tube to make a volume of thrombus 0.1 ml. Samples were washed in saline solution 3000 rpm for 5 centrifugation at followed by
autopsy arteries.
therapy. Emboli 0.5 cm thick, -2O'C. Prior to were prepared. were added to material about for ten minutes minutes. This
procedure was repeated three times altogether. of test solution containing buffer, Appropriate portions washed was added to Na-azid aprotinin sulphate and SBTI, Controls to addition of fibrinogen. thrombus material prior Final volume of the preparations was 0.65 ml; contained hirudin. were 0.66 mg/ml of SBTI, 2666 KIE/ml of final concentrations 1.5 g/l (4.4 pmol/l) of fibrinogen, 1.33 ATaprotinin sulphate, U/ml
of hirudin and 0.02% NaN3. Test tubes were incubated at 37'C adding interrupted by Reactions were Generated FPA was sulphate preparation. Nossel et al. (8).
for 2, 4 1.5 ml estimated
and 24 hours. bentonite of according to
881
THROMBIN IN PULMONARY EMBOLI
Vol. 59, No. 5
RESULTS
AND
COMMENTS
TABLE FPA
2h
1
generation
(umol/L) 24h
4h
0.867
2.467
0.002
0.001
3.927 0.005
3.001 0.004
4.722 0.001
3
1.313 0.010
2.617 0.011
5.433 0.019
4
2.341 0.014
2.951 0.018
10.358 0.038
Patient Control
1
Patient Control
2
Patient Control Patient Control
0.413 0.004
inin FPA concentration upon Table 1 depicts the increase of 0.1 ml of washed thrombus material in 0.65 ml cubation solution (4.4 umol/L) for 2, 4 and 24 hours refibrinogen of FPA generated rose markedly during spectively. The amount In all experiments the incubation in 3 of the 4 experiments. rise in FPA was effectively prevented by hirudin. No rise in FPA concentration occurred during incubation of fibrinogen circumstances,
in
the it
absence was not
of thrombus possible
to
material. estimate
Due the
to practical concenFPA
trations at zero time. Since, however, only traces of FPA were observed in incubation mixtures containing hirudin, this implies the added fibrinogen was the only source of FPA generation. that Our findings are in accordance with those of Francis et al (5) studied thrombin thrombi who retained activity in arterial obtained during vascular Most likely, surgery. the effect of remaining thrombin activity in purified test systems is amplified, due to the absence of natural thrombin inhibitors in the incubation mixture. The question of whether thrombin exerts its enzymatic activity whilst bound to fibrin, or whether this requires slow liberation from its fibrin attachment cannot be fully answered at present. Liu et al (3) have described a spontaneous release of thrombin from fibrin clots until equilibrium, while the experiments of Francis et al (5) may suggest that a minor fraction of fibrin retained thrombin cannot be released from its fibrin attachment during physiological conditions, and that this thrombin fraction remains bound to fibrin residues after fibrinolytic digestion, without loss of activity. Moreover, the enzymatically active site of thrombin is apparently not engaged in its fibrin binding (31, suggesting a proteolytic potential whilst bound to fibrin. If this holds true, the present observation of hirudin completely preventing release of FPA during incubation of slices of thrombi for 24 hours might
THROMBIN IN PULMONARY EMBOLI
882
offer indirect evidence are not occupied during studies are required to
that its give
hirudin fibrin a final
Vol. 59, No. 5
binding adsorption. answer.
sites of However,
thrombin further
REFERENCES 1.
SEEGERS, the blood
W.H. Multiple thrombin clotting mechanism.
The release A.L. Br.J.Haematol. S,
2.
BLOOM, lysin.
3.
LIU, C.Y., thrombn by
4.
5.
NOSSEL,
and
KAPLAN,
J.Biol.Chem.
ABILDGAARD, U., FAGERHOL, progressive anti-thrombin three thrombin inhibitors Invest. 26. 349-354. 1970. FRANCIS,
2,
of thrombin from 129-133, 1962.
H.L.
fibrin.
interactions J.Phys.Chem.
fibrin
K.L.
in
The
EGEBERG, and the
human
by
fibrino-
binding
thrombi
6.
7.
0. Comparison concentrations
plasma.
8.
D.W.T., of
influence 352-356,
of AT-III 1986.
BROSSTAD,
various
E.
and
F.,
thrombin on
their
KIERULF,
procedures to III and plasminogen.
NOSSEL, H.L., SPANONDIS, K., fibrinopeptide 1974.
T.M., fibrin 102,
1983.
NILSEN,
JAKOBSEN,
of of
Scand.J.Clin.
C.W., MARKHAM, R.E., BARLOW, B.H., FLORACK, D.M. and MARDER, V.J. Thrombin activity of and soluble plasma derivatives. J.Lab.Clin.Med.
Binding
cipitation thrombin
of 1979.
DOBRZYNSKI, 220-230,
by 1947.
10421-10425,
254,
M.K. and activity
as exhibited 198-206,
KIERULF, fractions
adsorption.
P.
A
modified
P.
and
to
GODAL,
fibrin
Thromb.Haemostas.
beta-alanine
prepare fibrinogen Thrombosis Res.
YUDELMANN, I., CANFIELD, R.E., WILNER, G.D. and QURESHI, G.D. A in human blood. J.Clin.Invest.
and
H.C. the 55,
pre-
free of anti3,145-159,1973. BUTLER, V.P., Measurement of 54, 43-53,
COMMUNICATION
BRIEF
THROHBIN
ACTIVITY
D.W.T.
Farstad*,
I.N.
IN
PULMONARY
Nielsen
**
EMEOLI
, R.
OBTAINED ***
Ruyter
and
AT
AUTOPSY
H.C.
Department of Department of,$athology, Rikshospitalet*, and Haemato&@cal Research Laboratory, Aker Hospital Hospital , Oslo, Norway
(Received
23.3.1990;
accepted
in revised form 4.7.1990
Godal
***
Medicine, Ullevsl
by Editor U. Abildgaard)
INTRODUCTION Thrombin is continuously generated during thrombus formation The rapidly immobilised by the fibrin meshwork (1,2,3). part of fibrin-immobilised thrombin is gradually released essentially by inactivated by circulating antithrombins, and antithrombin III (4). However, a minor fraction of thrombin is retained by the thrombus and may induce further fibrin formation This minor fraction of enzymatically active thrombin (5,6). as fibrinolytic degradation seems to be tightly bound to fibrin, releases thrombin linked to fibrin fragments (5).
and major
Below, obtained A (FPA)
we at upon
have studied thrombin activity in autopsy through analysis of generated incubation with fibrinogen.
AND
MATERIALS
pulmonary emboli fibrinopeptide
METHODS
Reagents. Buffers: Diemal-Na (2)
(1) 0.028
Tris-HCl-buffer,
Buffered
saline
volume of one solution (0.15
Key
Modified mol/l,
words:
diemal NaCl
0.15
solution modified M).
Pulmonary
M, (pH diemal
emboli,
buffer 0.126 pH
(pH mol/l
7.35) consisted of and HCl 0.1 mol/l.
7.40. 7.35, buffer
thrombin
879
0.15 to
M) nine
activity.
obtained volumes
by of
adding saline
Vol. 59, No. 5
THROMBIN IN PULMONARY EMBOLI
Soybean
trypsin
inhibitor
Sigma (R) was dissolved solution and stored at
Aprotinin kusen,
(NaN3),
Hirudin
2000 to
Bentonite
(R))
Lyophilized
preparation
diemal
buffer
20.000
KIE/ml,
to
from
obtain
Bayer
a
1%
Lever-
Germany.
Na-azid
solution
modified
(1 rasylol
sulphate
West
(SBTI):
in 4'C.
Merck,
Darmstadt,
Sigma concentration
AT-U, a
50
mg
of
Germany.
dissolved 20 AT-U/ml.
Kebo-Grave,
sulphate,
Oslo, Norway; Tris-HCl-buffer.
(R), of
West
bentonite
in
physiological
Yellowstone sulphate
Western
dissolved
saline
Bentonite, in 0.5
ml
was prepared by precipitation of titrated plasma with beta-alanine as described by Jakobsen and Kierulf (7) followed extensive dialysis buffered solution, to against saline by remove contaminating FPA, and subsequently stored in aliquots of 5 ml at -7OOC.
Fibrinogen
Pulmonary
Experimental Pulmonary 12-36 hours All
the
emboli
from
four
patients
obtained
autopsy.
at
procedures. emboli were post mortem. patients
died
obtained from
from
embolization
four
patients of
at
pulmonary
None had received anticoagulant or fibrinolytic with a diameter of 0.5-1.0 cm were cut into slices washed in buffered saline solution and stored at experiments; frozen sections from such slices Five to ten sections of 25 micrometer thickness each test tube to make a volume of thrombus 0.1 ml. Samples were washed in saline solution 3000 rpm for 5 centrifugation at followed by
autopsy arteries.
therapy. Emboli 0.5 cm thick, -2O'C. Prior to were prepared. were added to material about for ten minutes minutes. This
procedure was repeated three times altogether. of test solution containing buffer, Appropriate portions washed was added to Na-azid aprotinin sulphate and SBTI, Controls to addition of fibrinogen. thrombus material prior Final volume of the preparations was 0.65 ml; contained hirudin. were 0.66 mg/ml of SBTI, 2666 KIE/ml of final concentrations 1.5 g/l (4.4 pmol/l) of fibrinogen, 1.33 ATaprotinin sulphate, U/ml
of hirudin and 0.02% NaN3. Test tubes were incubated at 37'C adding interrupted by Reactions were Generated FPA was sulphate preparation. Nossel et al. (8).
for 2, 4 1.5 ml estimated
and 24 hours. bentonite of according to
881
THROMBIN IN PULMONARY EMBOLI
Vol. 59, No. 5
RESULTS
AND
COMMENTS
TABLE FPA
2h
1
generation
(umol/L) 24h
4h
0.867
2.467
0.002
0.001
3.927 0.005
3.001 0.004
4.722 0.001
3
1.313 0.010
2.617 0.011
5.433 0.019
4
2.341 0.014
2.951 0.018
10.358 0.038
Patient Control
1
Patient Control
2
Patient Control Patient Control
0.413 0.004
inin FPA concentration upon Table 1 depicts the increase of 0.1 ml of washed thrombus material in 0.65 ml cubation solution (4.4 umol/L) for 2, 4 and 24 hours refibrinogen of FPA generated rose markedly during spectively. The amount In all experiments the incubation in 3 of the 4 experiments. rise in FPA was effectively prevented by hirudin. No rise in FPA concentration occurred during incubation of fibrinogen circumstances,
in
the it
absence was not
of thrombus possible
to
material. estimate
Due the
to practical concenFPA
trations at zero time. Since, however, only traces of FPA were observed in incubation mixtures containing hirudin, this implies the added fibrinogen was the only source of FPA generation. that Our findings are in accordance with those of Francis et al (5) studied thrombin thrombi who retained activity in arterial obtained during vascular Most likely, surgery. the effect of remaining thrombin activity in purified test systems is amplified, due to the absence of natural thrombin inhibitors in the incubation mixture. The question of whether thrombin exerts its enzymatic activity whilst bound to fibrin, or whether this requires slow liberation from its fibrin attachment cannot be fully answered at present. Liu et al (3) have described a spontaneous release of thrombin from fibrin clots until equilibrium, while the experiments of Francis et al (5) may suggest that a minor fraction of fibrin retained thrombin cannot be released from its fibrin attachment during physiological conditions, and that this thrombin fraction remains bound to fibrin residues after fibrinolytic digestion, without loss of activity. Moreover, the enzymatically active site of thrombin is apparently not engaged in its fibrin binding (31, suggesting a proteolytic potential whilst bound to fibrin. If this holds true, the present observation of hirudin completely preventing release of FPA during incubation of slices of thrombi for 24 hours might
THROMBIN IN PULMONARY EMBOLI
882
offer indirect evidence are not occupied during studies are required to
that its give
hirudin fibrin a final
Vol. 59, No. 5
binding adsorption. answer.
sites of However,
thrombin further
REFERENCES 1.
SEEGERS, the blood
W.H. Multiple thrombin clotting mechanism.
The release A.L. Br.J.Haematol. S,
2.
BLOOM, lysin.
3.
LIU, C.Y., thrombn by
4.
5.
NOSSEL,
and
KAPLAN,
J.Biol.Chem.
ABILDGAARD, U., FAGERHOL, progressive anti-thrombin three thrombin inhibitors Invest. 26. 349-354. 1970. FRANCIS,
2,
of thrombin from 129-133, 1962.
H.L.
fibrin.
interactions J.Phys.Chem.
fibrin
K.L.
in
The
EGEBERG, and the
human
by
fibrino-
binding
thrombi
6.
7.
0. Comparison concentrations
plasma.
8.
D.W.T., of
influence 352-356,
of AT-III 1986.
BROSSTAD,
various
E.
and
F.,
thrombin on
their
KIERULF,
procedures to III and plasminogen.
NOSSEL, H.L., SPANONDIS, K., fibrinopeptide 1974.
T.M., fibrin 102,
1983.
NILSEN,
JAKOBSEN,
of of
Scand.J.Clin.
C.W., MARKHAM, R.E., BARLOW, B.H., FLORACK, D.M. and MARDER, V.J. Thrombin activity of and soluble plasma derivatives. J.Lab.Clin.Med.
Binding
cipitation thrombin
of 1979.
DOBRZYNSKI, 220-230,
by 1947.
10421-10425,
254,
M.K. and activity
as exhibited 198-206,
KIERULF, fractions
adsorption.
P.
A
modified
P.
and
to
GODAL,
fibrin
Thromb.Haemostas.
beta-alanine
prepare fibrinogen Thrombosis Res.
YUDELMANN, I., CANFIELD, R.E., WILNER, G.D. and QURESHI, G.D. A in human blood. J.Clin.Invest.
and
H.C. the 55,
pre-
free of anti3,145-159,1973. BUTLER, V.P., Measurement of 54, 43-53,