Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
Compound
Query: UMLS:C0023890 (
cirrhosis
)
42,195
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Causes of haemorrhagic tendency in liver disorders have been widely studied. Deficiency of procoagulants is the best explanation for it. Not seldom a thrombotic tendency or even overt thrombosis occurs and may be satisfactorily explained. The level and function of two important natural anticoagulants, i.e. of antithrombin III and protein C is markedly reduced, first in
liver cirrhosis
. Heparin cofactor activity of AT III and/or
heparin cofactor II
may be especially diminished. The hypercoagulable state resulting from these changes may be further aggravated by a so-called hyper-adhesive state which is the consequence of the sustained high level of plasmatic vWFAg associated with
liver cirrhosis
. Altered haemostatic balance needs individual laboratory evaluation.
...
PMID:Thrombosis promoting changes in chronic liver diseases. 246 26
A simple assay method of
heparin cofactor II
(HC II) activity is described. The procedure is based on the following principle: Antithrombin III (AT III) in plasma is inactivated by addition of an IgG fraction of goat serum after immunization of the animals against human AT III. Complete inactivation of AT III could be shown by absence of an anti Xa-effect of heparinized plasma treated with this antibody. Thrombin was only partially inhibited after inactivation of AT III. The characteristics of this inhibition were typical for the action of HC II. This method was applied for an assay of HC II activity. After optimizing of the method practical application in clinical routine screening was carried out. A diminution of HC II was observed in
liver cirrhosis
and in DIC but not in AT III deficiency. In 15 out of 269 cases of recurrent DVT there were HC II activities below 70% of normal. In 4 out of these patients activities of HC II were repeatedly between 44% and 52%. In arterial obstructive disease there was an HC II activity of less than 60% in 18 out of 583 patients and in 11 of them the HC II levels were repeatedly between 45% and 54%.
...
PMID:Heparin cofactor II: a simple assay method and results of its clinical application. 342 87
The serpins differ from the many other families of serine protease inhibitors in that they undergo a profound change in topology in order to entrap their target protease in an irreversible complex. The solving of the structure of this complex has now provided a video depiction of the changes involved. Cleavage of the exposed reactive centre of the serpin triggers an opening of the five-stranded A-sheet of the molecule, with insertion of the cleaved reactive loop as an additional strand in the centre of the sheet. The drastic displacement of the acyl-linked protease grossly disrupts its active site and gives an overall loss of 40% of ordered structure. This ability to provide effectively irreversible inhibition explains the selection of the serpins to control the proteolytic cascades of higher organisms. The conformational mechanism provides another advantage in its potential to modulate activity. Sequential crystallographic structures now provide clear depictions of the way antithrombin is activated on binding to the heparans of the microcirculation, and how evolution has utilized this mobile mechanism for subtle variations in activity. The complexity of these modulatory mechanisms is exemplified by
heparin cofactor II
, where the change in fold is seen to trigger multiple allosteric effects. The downside of the mobile mechanism of the serpins is their vulnerability to aberrant intermolecular beta-linkages, resulting in various disorders from
cirrhosis
to thrombosis. These provide a well defined structural prototype for the new entity of the conformational diseases, including the common dementias, as confirmed by the recent identification of the familial neuroserpin dementias.
...
PMID:How serpins change their fold for better and for worse. 1458 91
Endogenous heparinoids impair coagulation, evidenced by thrombelastography in cirrhotic patients with bacterial infection, but it is not clear which glycosaminoglycans can be detected by native and heparinase-modified thrombelastography. To assess the effects of different glycosaminoglycans on thrombelastography parameters and the reversibility of these effects by heparinase-I-modified thrombelastography. Twenty volunteers were enrolled. Solutions of heparan sulphate, dermatan sulphate, and chondroitin-4-sulphate were prepared at 'equivalent' concentrations, based on the composition and anticoagulant activity of danaparoid. Serial dilutions of each glycosaminoglycan were prepared to achieve 1.0, 0.5, 0.1, and 0.05 U/ml. Native and heparinase-modified thrombelastography, anti-activated factor X activity and
heparin cofactor II
activity were evaluated at each concentration. A statistically significant heparin-like effect was seen with 1 and 0.5 U/ml heparan sulphate, and 1 and 0.5 U/ml dermatan sulphate, which was completely reversed by heparinase-modified thrombelastography. Anti-activated factor X activity was significantly increased in samples containing heparan and dermatan sulphates. The
heparin cofactor II
activity decreased with 1.0 and 0.5 U/ml dermatan sulphate and chondroitin-4-sulphate, but not with heparan sulphate. Heparan and dermatan sulphates affect haemostasis when added to whole blood in vitro, detectable by native thrombelastography and completely reversed by heparinase-I-modified thrombelastography. They may therefore be responsible for the heparin-like effect seen by thrombelastography in patients with
cirrhosis
and bacterial infection.
...
PMID:The effects of glycosaminoglycans on coagulation: a thromboelastographic study. 1741 58
Point mutations cause members of the serine protease inhibitor (serpin) superfamily to undergo a novel conformational transition, forming ordered polymers. These polymers characterize a group of diseases termed the serpinopathies. The formation of polymers underlies the retention of alpha(1)-antitrypsin within hepatocytes and of neuroserpin within neurons to cause
cirrhosis
and dementia, respectively. Point mutations of antithrombin, C1 inhibitor, alpha(1)-antichymotrypsin, and
heparin cofactor II
cause a similar conformational transition, resulting in a plasma deficiency that is associated with thrombosis, angioedema, and emphysema. Polymers of serpins can also form in extracellular tissues where they activate inflammatory cascades. This is best described for the Z variant of alpha(1)-antitrypsin in which the proinflammatory properties of polymers provide an explanation for both progressive emphysema and the selective advantage of this mutant allele. Therapeutic strategies are now being developed to block the aberrant conformational transitions and so treat the serpinopathies.
...
PMID:Conformational pathology of the serpins: themes, variations, and therapeutic strategies. 1924 36
