Arthur J. Chu scite author profile

Emerging evidence shows a broad spectrum of biological functions of tissue factor (TF). TF classical role in initiating the extrinsic blood coagulation and its direct thrombotic action in close relation to cardiovascular risks have long been established. TF overexpression/hypercoagulability often observed in many clinical conditions certainly expands its role in proinflammation, diabetes, obesity, cardiovascular diseases, angiogenesis, tumor metastasis, wound repairs, embryonic development, cell adhesion/migration, innate immunity, infection, pregnancy loss, and many others. This paper broadly covers seminal observations to discuss TF pathogenic roles in relation to diverse disease development or manifestation. Biochemically, extracellular TF signaling interfaced through protease-activated receptors (PARs) elicits cellular activation and inflammatory responses. TF diverse biological roles are associated with either coagulation-dependent or noncoagulation-mediated actions. Apparently, TF hypercoagulability refuels a coagulation-inflammation-thrombosis circuit in “autocrine” or “paracrine” fashions, which triggers a wide spectrum of pathophysiology. Accordingly, TF suppression, anticoagulation, PAR blockade, or general anti-inflammation offers an array of therapeutical benefits for easing diverse pathological conditions.

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Interaction between the Adhesion Receptor, CD44, and the Oncogene Product, p185 , Promotes Human Ovarian Tumor Cell Activation

Bourguignon

Zhu

Chu

et al. 1997

Journal of Biological Chemistry

222

176

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In this study we have examined the interaction between CD44s (the standard form) and the p185 HER2 proto-oncogene in the ovarian carcinoma cell line. Surface biotinylation followed by wheat germ agglutinin column chromatography and anti-CD44-mediated immunoprecipitation indicate that both CD44s and p185 HER2 are expressed on the cell surface and most importantly, that these two molecules are physically linked to each other via interchain disulfide bonds. We have also determined that hyaluronic acid stimulates CD44s-associated p185 HER2 tyrosine kinase activity, leading to an increase in the ovarian carcinoma cell growth.After transfection of the ovarian carcinoma cell line with the adenovirus 5 E1A gene, which is known to repress p185 HER2 expression, we observed that both surface CD44s expression and CD44s-mediated cell adhesion to hyaluronic acid are significantly reduced in the transfectant cells compared with the control cells. These data suggest that down-regulation of p185 HER2 blocks CD44s expression and subsequent adhesion function. Our findings also indicate that the CD44s-p185 HER2 interaction is both functionally coupled and biosynthetically regulated. We believe that direct "cross-talk" between these two surface molecules (i.e. CD44s and the p185 HER2 ) may be one of the most important signaling events in human ovarian carcinoma development.

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Tissue factor mediates inflammation

Chu

2005

Archives of Biochemistry and Biophysics

135

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Ryanodine Receptor-Ankyrin Interaction Regulates Internal Ca2+ Release in Mouse T-lymphoma Cells

Bourguignon

Chu

Jin

et al. 1995

Journal of Biological Chemistry

131

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In this study, we have identified and partially characterized a mouse T-lymphoma ryanodine receptor on a unique type of internal vesicle which bands at the relatively light density of 1.07 g/ml. Analysis of the binding of [3H]ryanodine to these internal vesicles reveals the presence of a single, low affinity binding site with a dissociation constant (Kd) of 200 nM. The second messenger, cyclic ADP-ribose, was found to increase the binding affinity of [3H]ryanodine to its vesicle receptor at least 5-fold (Kd approximately 40 nM). In addition, cADP-ribose appears to be a potent activator of internal Ca2+ release in T-lymphoma cells and is capable of overriding ryanodine-mediated inhibition of internal Ca2+ release. Immunoblot analyses using a monoclonal mouse antiryanodine receptor antibody indicate that mouse T-lymphoma cells contain a 500-kDa polypeptide similar to the ryanodine receptor found in skeletal muscle, cardiac muscle, and brain tissues. Double immunofluorescence staining and laser confocal microscopic analysis show that the ryanodine receptor is preferentially accumulated underneath surface receptor-capped structures. T-lymphoma ryanodine receptor was isolated (with an apparent sedimentation coefficient of 30 S) by extraction of the light density vesicles with 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonic acid (CHAPS) in 1 M NaCl followed by sucrose gradient centrifugation. Further analysis indicates that specific, high affinity binding occurs between ankyrin and this 30 S lymphoma ryanodine receptor (Kd = 0.075 nM). Most importantly, the binding of ankyrin to the light density vesicles significantly blocks ryanodine binding and ryanodine-mediated inhibition of internal Ca2+ release. These findings suggest that the cytoskeleton plays a pivotal role in the regulation of ryanodine receptor-mediated internal Ca2+ release during lymphocyte activation.

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Biosynthesis of wax in the honeybee, Apis mellifera L.

Blomquist

Chu

Remaley

1980

Insect Biochemistry

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Arthur J. Chu

Tissue Factor, Blood Coagulation, and Beyond: An Overview

Interaction between the Adhesion Receptor, CD44, and the Oncogene Product, p185 , Promotes Human Ovarian Tumor Cell Activation

Tissue factor mediates inflammation

Ryanodine Receptor-Ankyrin Interaction Regulates Internal Ca2+ Release in Mouse T-lymphoma Cells

Biosynthesis of wax in the honeybee, Apis mellifera L.

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