Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:3.4.21.6 (
thromboplastin
)
13,278
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The use of bacterial signal peptides to target recombinant mammalian proteins to the periplasmic space of Escherichia coli (to promote proper disulfide bond formation) has met with variable success. We report the design and use of a bacterial expression vector to direct recombinant fusion proteins to the periplasmic space of E. coli: it contains the signal peptide from the pelB gene of Erwinia carotovora linked to a small peptide epitope for an unusual calcium-dependent antibody (
HPC4
).
HPC4
binds to the epitope in a Ca(2+)-dependent manner, but the epitope itself does not bind Ca2+. We have used this system to express a biologically active, soluble form of tissue factor, the protein responsible for triggering the blood clotting cascade. Soluble tissue factor was secreted into the culture medium at 1-2 mg/liter, from which it could be readily purified using immobilized
HPC4
antibody. The
HPC4
epitope could be removed by digestion with thrombin or
factor Xa
, although a free amino terminus was not required for function since soluble tissue factor was equally active with the epitope still in place. This vector/epitope system permits large-scale expression and purification of recombinant soluble tissue factor and should be generally applicable to the isolation of other recombinant proteins. Furthermore, the epitope confers Ca(2+)-dependent binding of the fusion protein to
HPC4
antibody while avoiding the creation of a new metal binding site on the fusion protein itself. Tb3+ can bind in this Ca2+ site near Trp, allowing this site to serve as a means of attaching a fluorescent probe to tissue factor.
...
PMID:Expression and purification of a soluble tissue factor fusion protein with an epitope for an unusual calcium-dependent antibody. 128 93
Protein C is a natural anticoagulant glycoprotein which prevents intravascular clot formation. Protein C functions as an anticoagulant when converted to an active serine protease (activated protein C). Activated protein C is formed at the site of the endothelial injury in response to blood clotting and helps limit the size of blood clots. We tested the hypothesis that by temporarily blocking the activation of intrinsic protein C, we could reduce subsequent surgical blood loss from a microvascular surgical wound. The formation of activated protein C was blocked systemically by intravenous administration of a monoclonal antibody (
HPC4
) which binds to circulating protein C and prevents its conversion to activated protein C. Domestic pigs were blindly pretreated with intravenous
HPC4
or saline then underwent partial-thickness skin graft harvesting to create a reproducible microvascular wound. Blood loss was measured from each wound and the hemostatic effect of protein C blockade was compared to intravenous saline alone as well as to topical thrombin or
thromboplastin
. We found that blocking the activation of protein C significantly (P = 0.005) reduces surgical blood loss in this model by 27% compared to saline control animals. Intravenous
HPC4
performed equally as well as topical thrombin or tissue
thromboplastin
. In addition, topical thrombin acted synergistically with
HPC4
to reduce blood loss an additional 44% (P = 0.01) as compared to intravenous
HPC4
or topical
thromboplastin
alone. Autopsies performed 1 week after
HPC4
treatment showed no evidence of systemic thrombosis resulting from the protein C blockade.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Blockade of protein C activation reduces microvascular surgical blood loss. 152 31
This study examines the assumption that both the anticoagulant and fibrinolytic activity that follow the generation of thrombin induced by infusion of
factor Xa
/PCPS are due to generation of activated protein C. Untreated controls or animals given unrelated antibody were compared with animals pretreated with a specific monoclonal antibody to protein C (
HPC4
). Compared with untreated controls excess
HPC4
substantially reduced the level of protein C activation as observed by protein C immunoblotting and enzyme-linked immunosorbent assay for antitrypsin/activated protein C complexes. Despite this, the anticoagulant activity as reflected by the decline of factors Va and VIIIa levels (as observed by coagulation assays and by factor V immunoblotting) was significantly greater than controls. The fibrinolytic activity (as observed by assays of tissue plasminogen activator, D-Dimer, alpha 2-antiplasmin) also was significantly greater than controls. We conclude that neutralization of the protein C anticoagulant system while resulting in a significantly more intense coagulant response to Xa/PCPS does not preclude inactivation of factors Va and VIIIa and the full expression of the fibrinolytic response. We conclude further that after thrombin generation in vivo, protein C activation is not a prerequisite for the promotion of the fibrinolytic response previously observed, and that the inactivation of factors Va/VIIIa may be mediated by enzymes other than activated protein C. The reduction in alpha 2-antiplasmin levels in association with increased tissue plasminogen activator activity suggests that plasmin is a likely candidate.
...
PMID:Anticoagulant and fibrinolytic activities are promoted, not retarded, in vivo after thrombin generation in the presence of a monoclonal antibody that inhibits activation of protein C. 155 68
