Immunochemical analyses of human plasma fibronectin-cytosolic transglutaminase interactions

Immunochemical analyses of human plasma fibronectin-cytosolic transglutaminase interactions

Fibronectin is a glycoprotein involved in cell adhesion, tissue organization and wound healing. Transglutaminase binding and covalent cross-linking of fibronectin are physiologically important reactions. We describe microtiter plate-based immunochemical methods to analyze cytosolic transglutaminase-...

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Bibliographic Details
Published in:Journal of immunological methods Vol. 180; no. 1; pp. 69 - 79
Main Authors: Achyuthan, Komandoor E., Jeff Goodell, R., Kennedye, James R., Lee, Kyung N., Henley, Anna, Stiefer, John R., Birckbichler, Paul J.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 13-03-1995
Elsevier
Subjects:
Animals
Binding
Binding Sites
Binding, Competitive
Biological and medical sciences
Cell interactions, adhesion
Cytosol - enzymology
ELISA
Enzyme-Linked Immunosorbent Assay - methods
Epitopes - analysis
Erythrocytes - enzymology
Fibrinogen
Fibronectin
Fibronectins - metabolism
Fundamental and applied biological sciences. Psychology
Guinea Pigs
Humans
IgG
Immunoglobulin G - metabolism
Liver - enzymology
Molecular and cellular biology
Sensitivity and Specificity
Temperature
Time Factors
Transglutaminase
Transglutaminases - metabolism
Binding
TBS
2-ME
DTT
IgG
FN
Transglutaminase
Fibronectin
ECM
BSA
TBS-T
Tg
Fibrinogen
ELISA
Human
Enzyme
Transferases
Molecular interaction
Glycoproteins
Binding site
Aminoacyltransferases
Adhesion
Binding capacity
Investigation method
Protein-glutamine γ-glutamyltransferase
Detection
ELISA assay
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Summary:Fibronectin is a glycoprotein involved in cell adhesion, tissue organization and wound healing. Transglutaminase binding and covalent cross-linking of fibronectin are physiologically important reactions. We describe microtiter plate-based immunochemical methods to analyze cytosolic transglutaminase-human plasma fibronectin interactions. The method was sensitive, specific, species-independent and capable of simultaneously analyzing 96 samples for binding. Binding was time-, temperature- and concentration-dependent and demonstrable with either protein immobilized to the plastic. The assay detected 1–5 ng transglutaminase or 50 pg fibronectin and was comparable in sensitivity to enzyme-linked immunosorbent assays. CaCl 2 (8 mM) enhanced transglutaminase binding by two-fold. Molar concentrations of NaCl or millimolar concentrations of chloride salts of barium, copper or zinc inhibited binding by 50–60%. The binding was also competitively blocked by soluble fibronectin (IC 50 = 2.3 nM) or by anti-fibronectin IgG (IC 50 = 0.5 μM). Inclusion of dithiothreitol or 2-mercaptoethanol during binding resulted in a concentration-dependent inhibition of transglutaminase-fibronectin interactions (IC 50 = 1.5 mM and 20 mM, respectively). A complex of [anti-transglutaminase IgG-transglutaminase-fibronectin-anti-fibronectin IgG] suggested that the binding sites and antibody epitopes could overlap, but are distinct and surface-exposed in the two proteins. Liver transglutaminase bound fibronectin 30–50% less compared to erythrocyte transglutaminase. Fibronectin-transglutaminase affinity was adequate for quantitating either antigen in lysates of lung fibroblasts, breast carcinomas or Escherichia coli. These immunochemical analyses will be useful for determining the affinity and mapping the domains involved in antibody recognition or protein-protein interactions using recombinant molecules of transglutaminase and fibronectin.
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ISSN:0022-1759
1872-7905
DOI:10.1016/0022-1759(94)00300-L