scholarly journals Quantification of plasma factor XIIa-Cl(-)-inhibitor and kallikrein-Cl(- )-inhibitor complexes in sepsis

Blood ◽  
1988 ◽  
Vol 72 (6) ◽  
pp. 1841-1848 ◽  
Author(s):  
JH Nuijens ◽  
CC Huijbregts ◽  
AJ Eerenberg-Belmer ◽  
JJ Abbink ◽  
RJ Strack van Schijndel ◽  
...  
Keyword(s):  
Septic Shock ◽  
Molar Ratio ◽  
Plasma Kallikrein ◽  
Factor Xii ◽  
Plasma Samples ◽  
Contact Activation ◽  
Highly Sensitive ◽  
Plasma Factor ◽  
Factor Xiia ◽  
Serial Samples

Abstract Considerable evidence indicates that activation of the contact system of intrinsic coagulation plays a role in the pathogenesis of septic shock. To monitor contact activation in patients with sepsis, we developed highly sensitive radioimmunoassays (RIAs) for factor XIIa-Cl(- )-inhibitor (Cl(-)-Inh) and kallikrein-Cl(-)-Inh complexes using a monoclonal antibody (MoAb Kok 12) that binds to a neodeterminant exposed on both complexed and cleaved Cl(-)-Inh. Plasma samples were serially collected from 48 patients admitted to the intensive care unit because of severe sepsis. Forty percent of patients on at least one occasion had increased levels of plasma factor XIIa-Cl(-)-Inh (greater than 5 x 10(-4) U/mL) and kallikrein-Cl(-)-Inh (greater than 25 x 10(- 4) U/mL), that correlated at a molar ratio of approximately 1:3. Levels of factor XII antigen in plasma and both the highest as well as the levels on admission of plasma factor XIIa-Cl(-)-Inh in 23 patients with septic shock were lower than in 25 normotensive patients (P = .015: factor XII on admission; P = .04: highest factor XIIa-Cl(-)-Inh; P = .01: factor XIIa-Cl(-)-Inh on admission). No significant differences in plasma kallikrein-Cl(-)-Inh or prekallikrein antigen were found between these patients' groups. Elevated Cl(-)-Inh complex levels were measured less frequently in serial samples from patients with septic shock than in those from patients without shock (P less than .0001). Based on these results, we conclude that plasma Cl(-)-Inh complex levels during sepsis may not properly reflect the extent of contact activation.

scholarly journals Quantification of plasma factor XIIa-Cl(-)-inhibitor and kallikrein-Cl(- )-inhibitor complexes in sepsis

Blood ◽  
1988 ◽  
Vol 72 (6) ◽  
pp. 1841-1848 ◽  
Author(s):  
JH Nuijens ◽  
CC Huijbregts ◽  
AJ Eerenberg-Belmer ◽  
JJ Abbink ◽  
RJ Strack van Schijndel ◽  
...  
Keyword(s):  
Septic Shock ◽  
Molar Ratio ◽  
Plasma Kallikrein ◽  
Factor Xii ◽  
Plasma Samples ◽  
Contact Activation ◽  
Highly Sensitive ◽  
Plasma Factor ◽  
Factor Xiia ◽  
Serial Samples

Considerable evidence indicates that activation of the contact system of intrinsic coagulation plays a role in the pathogenesis of septic shock. To monitor contact activation in patients with sepsis, we developed highly sensitive radioimmunoassays (RIAs) for factor XIIa-Cl(- )-inhibitor (Cl(-)-Inh) and kallikrein-Cl(-)-Inh complexes using a monoclonal antibody (MoAb Kok 12) that binds to a neodeterminant exposed on both complexed and cleaved Cl(-)-Inh. Plasma samples were serially collected from 48 patients admitted to the intensive care unit because of severe sepsis. Forty percent of patients on at least one occasion had increased levels of plasma factor XIIa-Cl(-)-Inh (greater than 5 x 10(-4) U/mL) and kallikrein-Cl(-)-Inh (greater than 25 x 10(- 4) U/mL), that correlated at a molar ratio of approximately 1:3. Levels of factor XII antigen in plasma and both the highest as well as the levels on admission of plasma factor XIIa-Cl(-)-Inh in 23 patients with septic shock were lower than in 25 normotensive patients (P = .015: factor XII on admission; P = .04: highest factor XIIa-Cl(-)-Inh; P = .01: factor XIIa-Cl(-)-Inh on admission). No significant differences in plasma kallikrein-Cl(-)-Inh or prekallikrein antigen were found between these patients' groups. Elevated Cl(-)-Inh complex levels were measured less frequently in serial samples from patients with septic shock than in those from patients without shock (P less than .0001). Based on these results, we conclude that plasma Cl(-)-Inh complex levels during sepsis may not properly reflect the extent of contact activation.

Detection of Activation of the Contact System of Coagulation In Vitro and In Vivo: Quantitation of Activated Hageman Factor-C1-Inhibitor and Kallikrein-C1-Inhibitor Complexes by Specific Radioimmunoassays

1987 ◽  
Vol 58 (02) ◽  
pp. 778-785 ◽  
Author(s):  
J H Nuijens ◽  
C C M Huijbregts ◽  
M Cohen ◽  
G O Navis ◽  
A de Vries ◽  
...  
Keyword(s):  
Contact System ◽  
Factor Xii ◽  
Plasma Samples ◽  
C1 Inhibitor ◽  
Hageman Factor ◽  
Plasma Factor ◽  
Factor Xiia ◽  
Kallikrein Activity

SummaryRadioimmunoassays (RIAs) for the detection of C1-inhihitor (C1-Inh) complexed to either kallikrein or activated Hageman factor (factor XIIa) are described. Kallikrein-C1-Inh or factor XIIa-C1-Inh complexes were bound to Scpharosc to which monospecific antibodies against (pre)kallikrein or factor XII, respectively, were coupled. Bound complexes were subsequently detected by an incubation with affinity purified 125I-labeled antibodies against Ci-Inh. These RIAs were used to detect activation of the contact system of coagulation in vitro and in vivo. Addition of dextran sulfate (DXS) (20 μg/ml) to fresh plasma resulted at 37° C in the rapid generation of amidolytic kallikrein activity, which was maximal after 1 to 2 min of incubation and subsequently decreased within a few minutes. The generation of kallikrein activity coincided with the appearance of both kallikrein-C1-Inh and factor XIIa-C1-Inh complexes. However, in contrast to kallikrein activity, both types of complexes remained detectable in the incubation mixtures during the incubation period. Experiments with purified kallikrein, C1-Inh and partly purified β-factor XIIa, and activation experiments in plasmas deficient in either factor XII or prekallikrein, demonstrated the specificity of both RIAs. The minimal amount of DXS that resulted in the generation of measurable amounts of both types of complexes in plasma was 2-3 μg per ml. Similar experiments with kaolin showed that with limiting amounts of activator (1-2 mg/ ml), only kallikrein-C1-Inh complexes were detected in plasma. When larger amounts of kaolin were added to plasma, factor XIIa-C1-Inh complexes were additionally detected in plasma. In plasma samples obtained from healthy donors under conditions that prevented activation of the contact system in vitro, very low levels of both factor XIIa-C1-Inh and kallikrein-C1-Inh complexes were measured, representing approximately 0.3% activation of both factor XII and prekallikrein. In serial plasma samples from a patient with adult respiratory distress syndrome, increased levels of both types of complexes were detected. The radioimmunoassays described in this paper provide useful tools to detect activation of the contact system in vitroas well as in vivo.

scholarly journals Mechanism of transient adsorption of fibrinogen from plasma to solid surfaces: role of the contact and fibrinolytic systems

Blood ◽  
1988 ◽  
Vol 71 (4) ◽  
pp. 932-939 ◽  
Author(s):  
JL Brash ◽  
CF Scott ◽  
P ten Hove ◽  
P Wojciechowski ◽  
RW Colman
Keyword(s):  
Solid Surfaces ◽  
Factor Xii ◽  
Contact Activation ◽  
Transient Detection ◽  
Normal Plasma ◽  
Plasma Factor ◽  
Factor Xiia ◽  
Factor Xia ◽  
Specific Proteins

The transient detection of fibrinogen on surfaces has been described (Vroman effect) and high-mol-wt kininogen (HK) has been shown to play a role in this reaction. In this study, we attempted to identify the form of HK responsible for preventing detection of the fibrinogen initially adsorbed from plasma to various artificial surfaces and to determine if other plasma components were involved. We compared 125I-fibrinogen adsorption in the presence of normal plasma to plasma deficient in specific proteins. On all surfaces tested, we found that fibrinogen was displaced from the surface. The extent of displacement was greatly reduced, however, but not eliminated in HK-deficient plasma. Factor XII- deficient plasma also showed reduced fibrinogen displacement. These data indicate that HK can actually displace fibrinogen; however, factor XII, or a factor XII-mediated reaction also appears to be necessary for this displacement to occur. Furthermore, when normal plasma was first subjected to extensive contact activation by dextran sulfate, during which the HK was extensively degraded to components smaller than the light chain (as assessed by Western blotting), we observed greatly reduced displacement of fibrinogen. Extensive contact activation of Factor XI-deficient plasma failed to show low-mol-wt derivatives, however, and displacement of fibrinogen was similar to normal plasma that had not undergone extensive activation. These data indicate that HKa (active cofactor produced during contact activation by factor XIIa or kallikrein) is primarily responsible for displacing fibrinogen, and that HKi (inactive cofactor generated by factor XIa) cannot displace fibrinogen. The fibrinogen from all plasma samples looked similar by Western blot analysis, suggesting that fibrinogenolysis was not a component of the Vroman effect. In addition, experiments performed with plasma prechromatographed on lysine agarose showed that a lysine- agarose adsorbable protein may be minimally involved in fibrinogen desorption and a synergism may exist between HK and that protein.

scholarly journals Mechanism of transient adsorption of fibrinogen from plasma to solid surfaces: role of the contact and fibrinolytic systems

Blood ◽  
1988 ◽  
Vol 71 (4) ◽  
pp. 932-939 ◽  
Author(s):  
JL Brash ◽  
CF Scott ◽  
P ten Hove ◽  
P Wojciechowski ◽  
RW Colman
Keyword(s):  
Solid Surfaces ◽  
Factor Xii ◽  
Contact Activation ◽  
Transient Detection ◽  
Normal Plasma ◽  
Plasma Factor ◽  
Factor Xiia ◽  
Factor Xia ◽  
Specific Proteins

Abstract The transient detection of fibrinogen on surfaces has been described (Vroman effect) and high-mol-wt kininogen (HK) has been shown to play a role in this reaction. In this study, we attempted to identify the form of HK responsible for preventing detection of the fibrinogen initially adsorbed from plasma to various artificial surfaces and to determine if other plasma components were involved. We compared 125I-fibrinogen adsorption in the presence of normal plasma to plasma deficient in specific proteins. On all surfaces tested, we found that fibrinogen was displaced from the surface. The extent of displacement was greatly reduced, however, but not eliminated in HK-deficient plasma. Factor XII- deficient plasma also showed reduced fibrinogen displacement. These data indicate that HK can actually displace fibrinogen; however, factor XII, or a factor XII-mediated reaction also appears to be necessary for this displacement to occur. Furthermore, when normal plasma was first subjected to extensive contact activation by dextran sulfate, during which the HK was extensively degraded to components smaller than the light chain (as assessed by Western blotting), we observed greatly reduced displacement of fibrinogen. Extensive contact activation of Factor XI-deficient plasma failed to show low-mol-wt derivatives, however, and displacement of fibrinogen was similar to normal plasma that had not undergone extensive activation. These data indicate that HKa (active cofactor produced during contact activation by factor XIIa or kallikrein) is primarily responsible for displacing fibrinogen, and that HKi (inactive cofactor generated by factor XIa) cannot displace fibrinogen. The fibrinogen from all plasma samples looked similar by Western blot analysis, suggesting that fibrinogenolysis was not a component of the Vroman effect. In addition, experiments performed with plasma prechromatographed on lysine agarose showed that a lysine- agarose adsorbable protein may be minimally involved in fibrinogen desorption and a synergism may exist between HK and that protein.

scholarly journals Discovery and Characterization of a Highly Specific Antibody Inhibitor of Factor XIIa, and the Subsequent Generation of a Factor XIIa/Plasma Kallikrein Bispecific Antibody

Blood ◽  
2015 ◽  
Vol 126 (23) ◽  
pp. 2268-2268
Author(s):  
Shauna D Mason ◽  
Jon Kenniston ◽  
Stephen R Comeau ◽  
Gregory P Conley ◽  
Niksa Kastrapeli ◽  
...  
Keyword(s):  
Monoclonal Antibody ◽  
Bispecific Antibody ◽  
Thrombus Formation ◽  
Human Antibody ◽  
Plasma Kallikrein ◽  
Factor Xii ◽  
Contact Activation ◽  
Single Chain ◽  
Related Sequence ◽  
Factor Xiia

Abstract Factor XII (FXII), also called Hageman Factor, is a key component of the plasma contact system. When blood is exposed to artificial surfaces or polyanionic substances, the zymogens FXII and prekallikrein (PK) undergo reciprocal activation to the proteases FXIIa and plasma kallikrein, respectively. FXIIa initiates coagulation through the intrinsic pathway by activating factor XI, while plasma kallikrein mediates generation of the potent vasodilator bradykinin. Patients lacking FXII or PK do not experience abnormal bleeding, indicating these proteins are not required for hemostasis. However, FXIIa and plasma kallikrein are required for formation of occlusive clots in animal thrombosis models, and FXIIa likely contributes to thrombus formation in humans when blood is passed through extracorporeal circuits (e.g. cardiopulmonary bypass). These observations suggest that FXIIa inhibition could be an effective antithrombotic strategy that would not have bleeding side effects associated with current approved anticoagulants. We used our human antibody phage display library to identify a highly selective and potent monoclonal antibody inhibitor of FXIIa, DX-4012. DX-4012 inhibits the proteolytic activity of FXIIa with an apparent Ki of ~15 pM, and does not inhibit closely related sequence homologs or other coagulation factors at concentrations up to 1 µM. When tested at 1 µM in human plasma, DX-4012 prolonged the activated partial thromboplastin time (aPTT) 3.4-fold, with no effect on the prothrombin time (PT). In a non-human primate pharmacokinetic study, an intravenous infusion of 10 mg/kg DX-4012 prolonged the aPTT 2.4-fold but had no effect on the PT. Given the importance of plasma kallikrein to FXII activation, we reasoned that the antithrombotic effect of DX-4012 could be augmented by combination with a kallikrein inhibitor. To test this, a variant of DX-4012 was converted into a single chain variable fragment (scFv) and combined with DX-2930, a potent and specific monoclonal antibody inhibitor of plasma kallikrein, to generate a "Morrison format" bispecific antibody. Enzyme inhibition assays determined that the apparent Ki values of the individual anti-kallikrein and anti-FXIIa components of the bispecific antibody were similar to the parent molecules (apparent Ki 389 pM and 73 pM, respectively). In contact-activated dilute plasma, the bispecific antibody was > 5 times more effective at preventing kallikrein generation than a 1:1 combination of DX-4012 and DX-2930, and more than 20-fold more effective than either DX-4012 or DX-2930 alone. Our data indicate that DX-4012, either as a monoclonal antibody or as a component of a bispecific antibody, shows potential as a novel antithrombotic therapy. Simultaneous inhibition of FXIIa and plasma kallikrein may be a uniquely potent method of blocking FXIIa activity through inhibition of the positive feedback loop during contact activation. Disclosures Mason: Dyax Corp: Employment. Kenniston:Dyax Corp: Employment. Comeau:Dyax Corp: Employment. Conley:Dyax Corp: Employment. Kastrapeli:Dyax Corp: Employment. Kopacz:Dyax Corp: Employment. Lindberg:Dyax Corp: Employment. Cosic:Dyax Corp: Employment. Kivaa:Dyax Corp: Employment. Qiu:Dyax Corp: Employment. Faucette:Dyax Corp: Employment. Sexton:Dyax Corp: Employment. Tenhoor:Dyax Corp: Employment. Wallisch:Aronora: Employment. Gruber:Aronora, Inc.: Employment, Equity Ownership, Patents & Royalties, Research Funding. Adelman:Dyax Corp: Employment. Nixon:Dyax Corp: Employment.

Plasma Contact Activation and Decrease of Factor V Activity on Negatively-Charged Polyelectrolytes

1984 ◽  
Vol 51 (01) ◽  
pp. 061-064 ◽  
Author(s):  
M C Boffa ◽  
B Dreyer ◽  
C Pusineri
Keyword(s):  
Time Dependent ◽  
Initial Contact ◽  
Factor Xii ◽  
Factor V ◽  
Contact Activation ◽  
Polyelectrolyte Complexes ◽  
Plasma Factor ◽  
Fresh Plasma ◽  
Direct Adsorption

SummaryThe effect of negatively-charged polymers, used in some artificial devices, on plasma clotting and kinin systems was studied in vitro using polyelectrolyte complexes.Contact activation was observed as an immediate, transient and surface-dependent phenomenon. After incubation of the plasma with the polymer a small decrease of factor XII activity was noticed, which corresponded to a greater reduction of prekallikrein activity and to a marked kinin release. No significant decrease of factor XII, prekallikrein, HMW kininogen could be detected immunologically. Only the initial contact of the plasma with the polyelectrolyte lead to activation, subsequently the surface became inert.Beside contact activation, factor V activity also decreased in the plasma. The decrease was surface and time-dependent. It was independent of contact factor activation, and appeared to be related to the sulfonated groups of the polymer. If purified factor V was used instead of plasma factor V, inactivation was immediate and not time-dependent suggesting a direct adsorption on the surface. A second incubation of the plasma-contacted polymer with fresh plasma resulted in a further loss of Factor V activity.

scholarly journals A monoclonal anti-human plasma prekallikrein antibody that inhibits activation of prekallikrein by factor XIIa on a surface

Blood ◽  
1987 ◽  
Vol 70 (4) ◽  
pp. 1053-1062
Author(s):  
D Veloso ◽  
LD Silver ◽  
S Hahn ◽  
RW Colman
Keyword(s):  
Heavy Chain ◽  
Sodium Dodecyl ◽  
Factor Xii ◽  
Contact Activation ◽  
Fab Fragments ◽  
Microtiter Plates ◽  
Normal Plasma ◽  
Reducing Conditions ◽  
Factor Xiia ◽  
Kallikrein Activity

Of five IgGI/k murine monoclonal anti-human prekallikrein antibodies produced (MAbs), MAb 13G11 was selected for studying interaction of prekallikrein with factor XII and high-mol-wt kininogen (HMWK) during activation on a surface. Immunoblots from sodium dodecyl sulfate (SDS) gels showed that this MAb recognizes two variants (88 kd and 85 kd) of prekallikrein and kallikrein both in purified proteins and normal plasma. Under reducing conditions, kallikrein exhibits the epitope on the heavy chain but not on the light chains. Preincubation of MAb 13G11 with prekallikrein (added to prekallikrein-deficient plasma) or with normal plasma inhibited surface activation of prekallikrein 60% to 80%, as judged by amidolytic and coagulant assays. In normal plasma, inhibition by the Fab fragments was 87% of that with the entire MAb. Inhibition was not by competition between the MAb and HMWK, since neither binding of 13G11 to prekallikrein (coated on microtiter plates) was inhibited by an excess of HMWK, nor was hydrolysis of HMWK by kallikrein inhibited by 13G11. Using purified proteins in a system mimicking contact activation, inhibition by 13G11 of prekallikrein activation by factor XIIa, HMWK, and kaolin present was approximately 80%. Decreased inhibition (55% to 25%) occurred without HMWK or when kallikrein was used instead of prekallikrein. Kallikrein activity was not inhibited by 13G11 Fab fragments. These results indicate that the effect of 13G11 in plasma was neither dissociation of prekallikrein- HMWK complex nor a direct effect on kallikrein activity. Similar to the results in plasma, activation of prekallikrein, HMWK present, by factor XIIa bound to kaolin, was inhibited approximately 70% by 13G11. The results suggest a previously unrecognized site on the prekallikrein (heavy chain) required for its interaction with factor XIIa, either shared with the 13G11 epitope or located in very close proximity. The inhibition of kallikrein by intact 13G11 indicates that its binding site on the heavy chain is sterically related to the active site (light chain).

scholarly journals A monoclonal anti-human plasma prekallikrein antibody that inhibits activation of prekallikrein by factor XIIa on a surface

Blood ◽  
1987 ◽  
Vol 70 (4) ◽  
pp. 1053-1062 ◽  
Author(s):  
D Veloso ◽  
LD Silver ◽  
S Hahn ◽  
RW Colman
Keyword(s):  
Heavy Chain ◽  
Sodium Dodecyl ◽  
Factor Xii ◽  
Contact Activation ◽  
Fab Fragments ◽  
Microtiter Plates ◽  
Normal Plasma ◽  
Reducing Conditions ◽  
Factor Xiia ◽  
Kallikrein Activity

Abstract Of five IgGI/k murine monoclonal anti-human prekallikrein antibodies produced (MAbs), MAb 13G11 was selected for studying interaction of prekallikrein with factor XII and high-mol-wt kininogen (HMWK) during activation on a surface. Immunoblots from sodium dodecyl sulfate (SDS) gels showed that this MAb recognizes two variants (88 kd and 85 kd) of prekallikrein and kallikrein both in purified proteins and normal plasma. Under reducing conditions, kallikrein exhibits the epitope on the heavy chain but not on the light chains. Preincubation of MAb 13G11 with prekallikrein (added to prekallikrein-deficient plasma) or with normal plasma inhibited surface activation of prekallikrein 60% to 80%, as judged by amidolytic and coagulant assays. In normal plasma, inhibition by the Fab fragments was 87% of that with the entire MAb. Inhibition was not by competition between the MAb and HMWK, since neither binding of 13G11 to prekallikrein (coated on microtiter plates) was inhibited by an excess of HMWK, nor was hydrolysis of HMWK by kallikrein inhibited by 13G11. Using purified proteins in a system mimicking contact activation, inhibition by 13G11 of prekallikrein activation by factor XIIa, HMWK, and kaolin present was approximately 80%. Decreased inhibition (55% to 25%) occurred without HMWK or when kallikrein was used instead of prekallikrein. Kallikrein activity was not inhibited by 13G11 Fab fragments. These results indicate that the effect of 13G11 in plasma was neither dissociation of prekallikrein- HMWK complex nor a direct effect on kallikrein activity. Similar to the results in plasma, activation of prekallikrein, HMWK present, by factor XIIa bound to kaolin, was inhibited approximately 70% by 13G11. The results suggest a previously unrecognized site on the prekallikrein (heavy chain) required for its interaction with factor XIIa, either shared with the 13G11 epitope or located in very close proximity. The inhibition of kallikrein by intact 13G11 indicates that its binding site on the heavy chain is sterically related to the active site (light chain).

scholarly journals Properties of sulfatides in factor-XII-dependent contact activation

Blood ◽  
1982 ◽  
Vol 59 (1) ◽  
pp. 69-75 ◽  
Author(s):  
G Tans ◽  
JH Griffin
Keyword(s):  
Normal Values ◽  
Limited Proteolysis ◽  
Factor Xii ◽  
Contact Activation ◽  
Amidolytic Activity ◽  
Prolonged Incubation ◽  
Coagulant Activity ◽  
Plasma Factor ◽  
Normal Human ◽  
Kallikrein Activity

Abstract Incubation of normal human plasma with low amounts of sulfatides resulted in the initiation of intrinsic coagulation and the appearance of kallikrein activity. The optimal initiation of procoagulant and kallikrein amidolytic activity was dependent on the presence of factor XII, high molecular weight kininogen, and prekallikrein. Since the activated partial thromboplastin clotting times in prekallikrein- deficient plasma approach normal values upon prolonged incubation with kaolin, this phenomenon of autocorrection was studied and found to be even more pronounced in the presence of sulfatides. Autocorrection was essentially completed in 5 min in the presence of sulfatides, whereas a preincubation of 15–20 min was required in the presence of kaolin. The limited proteolysis of 125I-factor XII in plasma during incubation with activating material or during clotting was determined. Cleavage of factor XII was more rapid and more extensive in the presence of sulfatides than in the presence of kaolin. In prekallikrein-deficient plasma, factor XII cleavage was completed within 5 min in the presence of sulfatides and within 15 min in the presence of kaolin. Thus, the appearance of factor-XII-dependent coagulant activity correlates with the limited proteolysis of factor XII when normal or prekallikrein- deficient plasma is activated by sulfatides or kaolin.

scholarly journals Studies on the Contact System of Coagulation during Therapy with High Doses of Recombinant IL-2: Implications for Septic Shock

1991 ◽  
Vol 65 (05) ◽  
pp. 497-503 ◽  
Author(s):  
C Erik Hack ◽  
John Wagstaff ◽  
Robert J M Strack Van Schijndel ◽  
Anke J M Eerenberg ◽  
Herbert M Pinedo ◽  
...  
Keyword(s):  
Septic Shock ◽  
Day Treatment ◽  
Interleukin 2 ◽  
Acute Phase Reactant ◽  
Contact System ◽  
Factor Xii ◽  
Protein Leakage ◽  
Sds Page ◽  
Plasma Factor ◽  
High Doses

SummaryPatients treated with high doses of interleukin-2 (IL-2) because of cancer, develop hemodynamic and vasopermeability changes, that resemble those observed in sepsis. These patients thus provide a unique opportunity to study the early events in the development of septic shock. We analysed the changes that occurred in the contact system of coagulation in plasma from 4 patients, who together received seven 12-day cycles of high doses of IL-2. Levels of factor XII and prekallikrein during the cycles progressively fell to 50 and 30% of their initial levels, respectively, whereas significant increases in plasma factor XIIa-and kallikrein-C1-inhibitor complexes were not observed (in 3 out of 211 samples slightly increased levels of both complexes were found). The reductions in factor XII and prekallikrein were only in part due to protein leakage, since levels were still significantly lower, i. e., 80 and 50%, respectively, when corrected for albumin decreases. Levels of high molecular weight kininogen (HMWK) also decreased during IL-2 therapy, however, this decrease paralleled that of albumin. SDS-PAGE analysis of plasma HMWK did not reveal increased cleavage of this protein. The reduction of factor XII and prekallikrein, corrected for protein leakage, significantly correlated with albumin levels and inversely with daily cumulative weight gain in the patients.Thus, we demonstrate that factor XII and prekallikrein decrease during IL-2 therapy. As these decreases, already observed after 1 day treatment, were disproportional to that of albumin, a negative acute phase reactant, and correlated with signs of the vascular leak syndrome, we favor the explanation that they reflected activation rather than a decreased synthesis of the contact system proteins. Further studies are needed to substantiate this hypothesis.

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