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Query: UMLS:C0019204 (
hepatocellular carcinoma
)
71,386
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The ability of normal and malignant blood-borne cells to extravasate correlates with the activity of an endo-beta-D-glucuronidase (heparanase) which degrades heparan sulfate (HS) in the subendothelial extracellular matrix (ECM). The association of malignancy with different types of coagulopathies prompted us to study the effect of thrombin (EC 3.4.21.5), a serine protease elaborated during activation of the clotting cascade, on the ability of heparanase to degrade the ECM-HS. The circulating zymogen form of thrombin, prothrombin, was converted to proteolytically active thrombin during incubation with ECM. Thrombin generation by the ECM was time and dose dependent, reaching maximal conversion by 6 h incubation at 3 U/ml of prothrombin. Heparanase-mediated release of low Mr HS cleavage products from sulfate-labeled ECM was stimulated four- to sixfold in the presence of alpha-thrombin, but there was no effect on degradation of soluble HS. Similar results were obtained with heparanase preparations derived from mouse lymphoma and human
hepatoma
cell lines and from human placenta. Incubation of ECM with alpha-thrombin alone resulted in release of nearly intact high-Mr labeled proteoglycans. Thrombin stimulation of heparanase action was dose and time dependent, reaching a maximal value at 24 h incubation with 1 microM alpha-thrombin. The effect of modified thrombin preparations correlated with their proteolytic activity. Catalytically blocked preparations of thrombin (e.g., DIP-alpha-thrombin, MeSO2-alpha-thrombin) failed to facilitate heparanase action, while catalytically modified preparations (e.g., gamma-thrombin, NO2-alpha-thrombin) exerted only a slight enhancement.
Antithrombin III
(
ATIII
) and hirudin both inhibited thrombin-stimulated heparanase degradation of ECM-bound HS. Heparanase action was also facilitated by ECM-immobilized thrombin to an extent which was similar to that induced by soluble thrombin. This result implies that thrombin sequestered by the subendothelial ECM and protected from interaction with its natural inhibitor
ATIII
(Bar-Shavit et al., 1989, J. Clin. Invest. 84, 1096-1104) may participate locally in cellular invasion during tumor metastasis, inflammation, and autoimmunity.
...
PMID:Thrombin enhances degradation of heparan sulfate in the extracellular matrix by tumor cell heparanase. 161 23
A case of primary
hepatocellular carcinoma
with an abnormal increase in the antigenic quantity and activity of
Antithrombin III
(AT-III) is reported. The patient was a 53-year-old man. The liver was palpated for a five fingerbreadths, but no jaundice or ascites was noted. Computed tomogram (CT) revealed the presence of many nodules of various sizes in the right hepatic lobe. Both viral markers of HBV and HCV were negative. For tumor markers, PIVKA-II was high (27.7 AU/ml) but AFP was normal. Among coagulation and fibrinolytic factors, the activity and antigenic levels of AT-III were abnormally high (290% and 81.6 mg/dl). An US guided needle biopsy of the tumor revealed
hepatocellular carcinoma
, Edmondson I. The cellularity was high and the tumor cells were small, well differentiated. The tumor cells were positively stained in immunohistochemical staining using the anti-AT-III antibody. It was believed that AT-III produced by the tumor cells was responsible for this exaggerated level.
...
PMID:Antithrombin III producing hepatocellular carcinoma. 830 58
Two patients with abnormal antithrombin III manifested abnormality in heparin binding activity (abnormal antithrombin III "Toyma") or protease binding activity (abnormal antithrombin III "Aomori").
Antithrombin III
"Toyama" is hereditarily homozygous with Arg47 to Cys47 (TGC-->TGT) mutation, and antithrombin III "Aomori" is hereditarily heterozygous with Arg393 to His393 (CGT-->CAT). The former is classified as type II-c, and the latter as type II-b according to Lane's classification2). Both patients showed cerebral thrombosis after age 20. Heparin cofactor II activity in the former case was slightly higher than normal. Oral anticoagulant therapy was used in the both cases. These cases were examined by biological and immunological assay, heparin sepharose column chromatography, binding activity to cultured porcine endothelial cells, restriction fragment length polymorphysm and polymerase chain reaction. The authors developed an antithrombin III assay method to be able to estimate real activity without the influence of heparin cofactor II activity11), and to apply the low molecular weight heparin to prevent relapse of thrombosis, and finally to find an anticoagulant substance in an interesting case of
hepatocellular carcinoma
(Edmondson type 1) producing normal antithrombin III30).
...
PMID:[Abnormal antithrombin III: abnormalities of heparin or protease binding domain]. 835 May 12
A circulating anticoagulant was isolated from the plasma of a 42-year-old man with cirrhosis and
hepatocellular carcinoma
who had an unusual coagulation test profile. The patient developed a fatal coagulopathy, unresponsive to protamine therapy or plasma exchange following liver biopsy. However, at presentation, routine hemostasis assays were normal. The patient had mucocutaneous bleeding but the sole laboratory abnormality was a prolonged thrombin time (TT = 99 s, normal 25-35 s). Protamine titration indicated activity equivalent to a heparin concentration of 6-7 U/ml.
Antithrombin III
(AT III) antigen and activity were markedly elevated. The anticoagulant activity, purified from plasma by DEAE chromatography, was identified as a glycosaminoglycan (GAG). GAG anti-thrombin activity was completely abolished by heparin lyase III. Based on the degree of sulfation and HPLC pattern, the GAG was classified as heparan sulfate. Low levels (4 microM) of purified GAG markedly prolonged the TT (>120 s) but not the activated partial thromboplastin time (PTT) (31.4 s). In a Factor Xa assay, the GAG exhibited a potency equivalent to 0.06 U of low molecular weight heparin per nmol of uronic acid. Patients with endogenous circulating glycosaminoglycans can present with unusual laboratory coagulation test profiles. These reflect complex dysfunction of hemostasis, leading to difficulty in providing diagnosis and effective care.
...
PMID:Structural characterization and functional effects of a circulating heparan sulfate in a patient with hepatocellular carcinoma. 969 91
We have used a transgenic animal model, which constitutively develops
hepatocarcinoma
(
Antithrombin III
SV40 T large Antigen: ASV), to study the involvement of Annexin 1 (ANX1) in liver regeneration and malignant transformation. Primary hepatocytes isolated from normal mice did not express ANX1. In contrast, ANX1 was strongly expressed in hepatocytes of transgenic mice during constitutive development of
hepatocarcinoma
. In ASV transgenic mice, an elevated ANX1 level preceded the appearance of the tumor, indicating that it could be a good marker in the diagnosis of cancer. One-third hepatectomy in normal mice resulted in stimulation of ANX1 synthesis and phosphorylation. This upregulation correlated with increased synthesis of EGF and consequently with increased phosphorylation of the EGF receptor (EGF-R). Stable transfection of a hepatocyte cell line derived from ASV transgenic mice (mhAT2) with antisense complementary DNA for ANX1 reduced the proliferation rate as well as cytosolic phospholipase A(2) (cPLA(2)) activity. Thus, ANX1 expression and phosphorylation could be a factor implicated in liver regeneration and tumorigenesis, either through modulation of cPLA(2) activity or EGF-R function.
...
PMID:Annexin 1 expression and phosphorylation are upregulated during liver regeneration and transformation in antithrombin III SV40 T large antigen transgenic mice. 1065 60
The liver plays a central role in haemostasis, being the site of synthesis of most of the clotting factors, coagulation inhibitors and fibrinolytic parameters, in addition to its clearance of activated clotting and fibrinolytic factors. Nonetheless, no haemostatic test(s) is included among the routine liver function tests and this study aims to probe this possibility. The liver disease group (n=258) included acute hepatitis (n=25), chronic viral hepatitis (n=128), hepatitis B (HB) carriers (n=25), liver cirrhosis (n=67), and
hepatocellular carcinoma
(
HCC
) (n=13). The prothrombin time was significantly prolonged in acute hepatitis, liver cirrhosis and
HCC
. However, the reptilase time was prolonged in all the groups except in HB carriers, while the thrombin time was prolonged only in the
HCC
group.
Antithrombin III
and protein C levels exhibited significant reduction in acute hepatitis, liver cirrhosis and
HCC
. On the other hand, protein S levels (total and free) were reduced significantly in all the patients groups, including HB carriers when compared with healthy controls. Derangement of haemostatic tests is a common feature in liver disease, being most significant in acute hepatitis, liver cirrhosis and
hepatocellular carcinoma
. The most sensitive markers of hepatocyte malfunction are protein S (total and free) and the reptilase time as they were abnormal, in the mildest liver affections, when other biochemical tests as well as other haemostatic tests were normal. Further studies are needed to see whether these two tests qualify for inclusion among the routine liver function tests.
...
PMID:Haemostatic abnormalities in liver disease: could some haemostatic tests be useful as liver function tests? 1597 Jul 16
