Bohdan J. Kudryk scite author profile

Samples of normal and atherosclerotic vessels obtained from vascular and cardiothoracic surgery were examined for the distribution of fibrinogen/fibrin I, fibrin II, and fibrin(ogen) degradation products (Fragment D/DD) by using recently characterized monoclonal antibodies that recognize and distinguish the three molecular forms (MAbs 18C6, T2G1, and GC4, respectively) with the ABC-immunoperoxidase technique. In normal aortas, little fibrinogen/fibrin I or fibrin II was present and no fibrin(ogen) degradation products could be detected. In early lesions and in fibrous plaques, fibrinogen/fibrin I and fibrin II were distributed in long threads and surrounding vessel wall cells and macrophages. Fibrin(ogen) degradation products were not seen in early lesions. In fibrous and advanced plaques, fibrinogen/fibrin I, fibrin II, and fibrin(ogen) degradation products were detected in areas of loose connective tissue, in thrombus, and around cholesterol crystals. The results of this study suggest that increased fibrin formation and degradation may be associated with progression of atherosclerotic disease. The observed distribution of the different molecular forms of fibrinogen also suggests the possibility that the cells present in the lesions actively participate in the fibrinogen-to-fibrin transition within the vessel wall.

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Regulated Unmasking of the Cryptic Binding Site for Integrin α_Mβ₂ in the γC-Domain of Fibrinogen

Lishko

et al. 2002

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Fibrinogen is a ligand for leukocyte integrin alpha(M)beta2 (CD11b/CD18, Mac-1) and mediates adhesion and migration of leukocytes during the immune-inflammatory responses. The binding site for alpha(M)beta2 resides in gammaC, a constituent subdomain in the D-domain of fibrinogen. The sequence gamma383-395 (P2-C) in gammaC was implicated as the major binding site for alpha(M)beta2. It is unknown why alpha(M)beta2 on leukocytes can bind to immobilized fibrinogen in the presence of high concentrations of soluble fibrinogen in plasma. In this study, we have investigated the accessibility of the binding site in fibrinogen for alpha(M)beta2. We found that the alpha(M)beta2-binding site in gammaC is cryptic and identified the mechanism that regulates its unmasking. Proteolytic removal of the small COOH-terminal segment(s) of gammaC, gamma397/405-411, converted the D100 fragment of fibrinogen, which contains intact gammaC and is not able to inhibit adhesion of the alpha(M)beta2-expressing cells, into the fragment D98, which effectively inhibited cell adhesion. D98, but not D100, bound to the recombinant alpha(M)I-domain, and the alpha(M)I-domain recognition peptide, alpha(M)(Glu253-Arg261). Exposure of the P2-C sequence in fibrinogen, D100, and D98 was probed with a site-specific mAb. P2-C is not accessible in soluble fibrinogen and D100 but becomes exposed in D98. P2-C is also unmasked by immobilization of fibrinogen onto a plastic and by deposition of fibrinogen in the extracellular matrix. Thus, exposure of P2-C by immobilization and by proteolysis correlates with unmasking of the alpha(M)beta2-binding site in the D-domain. These results demonstrate that conformational alterations regulate the alpha(M)beta2-binding site in gammaC and suggest that processes relevant to tissue injury and inflammation are likely to be involved in the activation of the alpha(M)beta2-binding site in fibrinogen.

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Noncollagenous Bone Matrix Proteins, Calcification, and Thrombosis in Carotid Artery Atherosclerosis

Bini

Mann

Kudryk

et al. 1999

ATVB

141

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Abstract-Advanced atherosclerosis is often associated with dystrophic calcification, which may contribute to plaque rupture and thrombosis. In this work, the localization and association of the noncollagenous bone matrix proteins osteonectin, osteopontin, and osteocalcin with calcification, lipoproteins, thrombus/hemorrhage (T/H), and matrix metalloproteinases (MMPs) in human carotid arteries from endarterectomy samples have been determined. According to the recent American Heart Association classification, 6 of the advanced lesions studied were type V (fibroatheroma) and 16 type VI (complicated 4 and ex vivo 5 detection of calcium deposits in coronary arteries, have shown that calcification is correlated with atherosclerotic plaque burden and that noninvasive detection of calcification may have predictive value in the development of subsequent coronary events. 5 The molecular determinants regulating extracellular matrix calcification have yet to be identified. Recent studies have shown that noncollagenous bone matrix proteins such as osteonectin, osteocalcin, and osteopontin are also found in atherosclerotic vessels and may regulate dystrophic calcification. For example, osteonectin (SPARC) has been identified in vessel wall cells 6 and platelets 7 and participates in the regulation of bone mineralization, 8 cell migration/proliferation, 9 and remodeling of extracellular matrix. 10 -12 Recently, it has been shown that osteonectin binds to plasminogen, 13 increases its activation and binding to collagen, 13 and induces the expression of type 1 plasminogen activator inhibitor in endothelial cells (ECs). 14 That suggests a role for osteonectin in both the degradation of extracellular matrix and the regulation of fibrinolysis. Moreover, osteonectin upregulates the expression of matrix metalloproteinases (MMPs) in cultured fibroblasts. 15 Previous studies have implicated MMPs in destabilization and rupture of atherosclerotic plaques, 16 -19 and we recently showed that both fibrinogen and cross-linked fibrin, proteins known to be associated with both early and complicated plaques, can be degraded by MMP-2,

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Bohdan J. Kudryk

Identification and distribution of fibrinogen, fibrin, and fibrin(ogen) degradation products in atherosclerosis. Use of monoclonal antibodies.

Regulated Unmasking of the Cryptic Binding Site for Integrin α_Mβ₂ in the γC-Domain of Fibrinogen

Noncollagenous Bone Matrix Proteins, Calcification, and Thrombosis in Carotid Artery Atherosclerosis

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Bohdan J. Kudryk

Identification and distribution of fibrinogen, fibrin, and fibrin(ogen) degradation products in atherosclerosis. Use of monoclonal antibodies.

Regulated Unmasking of the Cryptic Binding Site for Integrin αMβ2 in the γC-Domain of Fibrinogen

Noncollagenous Bone Matrix Proteins, Calcification, and Thrombosis in Carotid Artery Atherosclerosis

Contact Info

Product

Resources

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Regulated Unmasking of the Cryptic Binding Site for Integrin α_Mβ₂ in the γC-Domain of Fibrinogen