S.-P. Hu scite author profile

S.-P. Hu

5Publications

154Citation Statements Received

61Citation Statements Given

How they've been cited

223

144

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Affiliations

SurModics (United States), Boston University

Publications

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Studies on the Lysine-Binding Sites of Human Plasminogen. The Effect of Ligand Structure on the Binding of Lysine Analogs to Plasminogen

Winn

Hochschwender

et al. 1980

Eur J Biochem

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A method is described for measuring relative binding constants of lysine and analogs of lysine to plasminogen and plasminogen 'kringle' fragments. Plasminogen or kringle fragments adsorbed to lysine-Sepharose are eluted with increasing concentrations of lysine or other ligands, the concentration of ligand required to elute 50% of the protein being taken as a measure of the binding constant. The method is simple and is not dependent on monitoring conformational changes. We confirm earlier reports that the best ligands for the lysine binding sites of plasminogen are w-amino acids containing five or six carbons. We show further that both Glu-plasminogen (the native form with N-terminal glutamic acid) and Lys-plasminogen (a degraded form with N-terminal lysine), as well as the heavy chain fragments, kringle 4 and kringle 1 + 2 + 3, have very similar properties with regard to binding specificity for w-amino acids. For all species optimal binding is observed when the distance between the amino and carboxyl carbon is about 0.68 nm. The binding of ligands is decreased by the presence of polar atoms on the a and p positions of the carbon chain of amino acids.Arginine binds relatively weakly at the lysine site and there does not appear to be a separate arginine binding site in plasminogen.It has been known for over 20 years that amino acids such as 6-aminohexanoic acid have antifibrinolytic properties [l], one of which probably results from inhibition of the binding of plasminogen to fibrin [2]. Subsequent studies have shown that 6-aminohexanoic acid and lysine cause extensive conformational alterations in Glu-plasminogen [3,4] (and references in [4]); Deutsch and Mertz [5] utilized the strong affinity of plasminogen for lysine-Sepharose in the development of a convenient method for purification of plasminogen.

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Lysine-derivatized polyurethane as a clot lysing surface: conversion of adsorbed plasminogen to plasmin and clot lysis in vitro

McClung

Clapper

et al. 2001

Biomaterials

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Adsorption of plasminogen from human plasma to lysine-containing surfaces

McClung

Clapper

et al. 2000

J. Biomed. Mater. Res.

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The objective of this work is to develop blood-contacting surfaces that will dissolve nascent clots that may begin to form on them. Surfaces were prepared consisting of a polyurethane to which a coating reagent was attached covalently by photochemical methods. The coating reagent was a polyacrylamide with lysine and benzophenone (for photochemical attachment) moieties pendant to the chains. It was hypothesized that via the lysine moieties such surfaces would show specific binding affinity for plasminogen, the principal component of the fibrinolytic system in blood. Surfaces of varying lysine content in which the lysine was bound through the alpha-amino groups, leaving the epsilon-amino groups free, were investigated. A control surface in which the lysine was bound through the epsilon-amino groups was also examined. Advancing water contact angles showed the surfaces to be hydrophilic. Hydrophilicity was found to decrease as the lysine content increased. Adsorption of plasminogen from plasma was studied using radioiodinated plasminogen as a tracer. For the epsilon-lysine surfaces, adsorption increased with increasing lysine content and reached a value of 1.2 microg/cm(2) for the surface with the highest lysine content, that is, in the range expected for a compact monolayer of plasminogen. The control surfaces, which contained either no lysine or lysine in which the epsilon-amino groups were unavailable, adsorbed very small amounts of plasminogen. Immunoblots were obtained for the proteins eluted from the surfaces after incubation with plasma. For the control surfaces, most of the proteins tested for (some 20 in all) were present. However, for the surface containing the highest concentration of epsilon-lysine, only plasminogen was detected in a significant amount. It is concluded that the epsilon-lysine surface adsorbs plasminogen to the exclusion of the other plasma proteins. Studies to examine the fibrinolytic properties of these surfaces will constitute the next phase of this work.

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Adsorption of plasminogen from human plasma to lysine-containing surfaces

McClung

Clapper

et al. 2000

J. Biomed. Mater. Res.

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Rapid Magnetic Microsphere Enzyme Immunoassay for Potato Virus X and Potato Leafroll Virus

Banttari¹,

Clapper²,

Hu³

et al. 1991

Phytopathology

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S.-P. Hu

Studies on the Lysine-Binding Sites of Human Plasminogen. The Effect of Ligand Structure on the Binding of Lysine Analogs to Plasminogen

Lysine-derivatized polyurethane as a clot lysing surface: conversion of adsorbed plasminogen to plasmin and clot lysis in vitro

Adsorption of plasminogen from human plasma to lysine-containing surfaces

Adsorption of plasminogen from human plasma to lysine-containing surfaces

Rapid Magnetic Microsphere Enzyme Immunoassay for Potato Virus X and Potato Leafroll Virus

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