K N Lee

Publications (25)109.04 Total impact

• Article: Enhancement of fibrinolysis by inhibiting enzymatic cleavage of precursor α(2) -antiplasmin: reply to a rebuttal.

  K N Lee, K W Jackson, V J Christiansen, P A McKee
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  ABSTRACT: See also Lee KN, Jackson KW, Christiansen VJ, Dolence EK, McKee PA. Enhancement of fibrinolysis by inhibiting enzymatic cleavage of precursor α(2) -antiplasmin. J Thromb Haemost 2011; 9: 987-96; Agustí-Cobos E, Tenorio-Laranga J. Enhancement of fibrinolysis by inhibiting enzymatic cleavage of precursor α(2) -antiplasmin: a rebuttal. This issue, pp 1266-7.
  Journal of Thrombosis and Haemostasis 06/2011; 9(6):1268-9. · 5.73 Impact Factor
• Article: Enhancement of fibrinolysis by inhibiting enzymatic cleavage of precursor α2-antiplasmin.

  K N Lee, K W Jackson, V J Christiansen, E K Dolence, P A McKee
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  ABSTRACT: Resistance of thrombi to plasmin digestion depends primarily on the amount of α(2)-antiplasmin (α(2)AP) incorporated within fibrin. Circulating prolyl-specific serine proteinase, antiplasmin-cleaving enzyme (APCE), a homologue of fibroblast activation protein (FAP), cleaves precursor Met-α(2)AP between -Pro12-Asn13- to yield Asn-α(2)AP, which is crosslinked to fibrin approximately 13× more rapidly than Met-α(2)AP and confers resistance to plasmin. We reasoned that an APCE inhibitor might decrease conversion of Met-α(2)AP to Asn-α(2)AP and thereby enhance endogenous fibrinolysis. We designed and synthesized several APCE inhibitors and assessed each vs. plasma dipeptidyl peptidase IV (DPPIV) and prolyl oligopeptidase (POP), which have amino acid sequence similarity with APCE. Acetyl-Arg-(8-amino-3,6-dioxaoctanoic acid)-D-Ala-L-boroPro selectively inhibited APCE vs. DPPIV, with an apparent K(i) of 5.7 nm vs. 6.1 μm, indicating that an approximately 1000-fold greater inhibitor concentration is required for DPPIV than for APCE. An apparent K(i) of 7.4 nm was found for POP inhibition, which is similar to 5.7 nm for APCE; however, the potential problem of overlapping FAP/APCE and POP inhibition was negated by our finding that normal human plasma lacks POP activity. The inhibitor construct caused a dose-dependent decrease of APCE-mediated Met-α(2)AP cleavage, which ultimately shortened plasminogen activator-induced plasma clot lysis times. Incubation of the inhibitor with human plasma for 22 h did not lessen its APCE inhibitory activity, with its IC(50) value in plasma remaining comparable to that in phosphate buffer. These data establish that inhibition of APCE might represent a therapeutic approach for enhancing thrombolytic activity.
  Journal of Thrombosis and Haemostasis 01/2011; 9(5):987-96. · 5.73 Impact Factor
• Article: Evidence that alpha2-antiplasmin becomes covalently ligated to plasma fibrinogen in the circulation: a new role for plasma factor XIII in fibrinolysis regulation.

  M W Mosesson, K R Siebenlist, I Hernandez, K N Lee, V J Christiansen, P A McKee
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  ABSTRACT: BACKGROUND: Plasma alpha2-antiplasmin (alpha2AP) is a rapid and effective inhibitor of the fibrinolytic enzyme plasmin. Congenital alpha2AP deficiency results in a severe hemorrhagic disorder due to accelerated fibrinolysis. It is well established that in the presence of thrombin-activated factor XIII (FXIIIa), alpha2AP becomes covalently ligated to the distal alpha chains of fibrin or fibrinogen at lysine 303 (two potential sites per molecule). Some time ago we showed that alpha2AP is covalently linked to plasma fibrinogen . That singular observation led to our hypothesis that native plasma factor XIII (FXIII), which is known to catalyze covalent cross-linking of fibrinogen in the presence of calcium ions, can also incorporate alpha2AP into fibrinogen in the circulation. RESULTS AND CONCLUSIONS: We now provide evidence that FXIII incorporates I 125-labelled alpha2AP into the Aalpha-chain sites on fibrinogen or fibrin. We also measured the content of alpha2AP in isolated plasma fibrinogen fractions by ELISA and found that substantial amounts were present (1.2-1.8 moles per mole fibrinogen). We propose that alpha2AP becomes ligated to fibrinogen while in the circulation through the action of FXIII, and that its immediate presence in plasma fibrinogen contributes to regulation of in vivo fibrinolysis.
  Journal of Thrombosis and Haemostasis 07/2008; 6(9):1565-70. · 5.73 Impact Factor
• Article: Why alpha-antiplasmin must be converted to a derivative form for optimal function.

  K N Lee, K W Jackson, V J Christiansen, C S Lee, J G Chun, P A McKee
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  ABSTRACT: Human alpha(2)-antiplasmin (alpha(2)AP), the primary inhibitor of fibrinolysis, is secreted from the liver into plasma as a 464-residue protein with Met as the N-terminus. An R6W polymorphism has been suggested to affect fibrinolytic rate. Within circulating blood, antiplasmin-cleaving enzyme (APCE) cleaves Met-alpha(2)AP(R6) faster than Met-alpha(2)AP(W6) at the Pro12-Asn13 bond to yield Asn-alpha(2)AP. To compare Met-alpha(2)AP(R6), Met-alpha(2)AP(W6) and Asn-alpha(2)AP for crosslinking with fibrin and the ability to protect fibrin from digestion by plasmin. Asn-alpha(2)AP utilizes Gln2 (Gln14 in Met-alpha(2)AP) to become crosslinked to fibrin approximately twelvefold faster than Met-alpha(2)AP(R6) or Met-alpha(2)AP(W6), and this enhances the resistance of fibrin to plasmin. All three forms of alpha(2)AP inhibit plasmin at identical rates. The N-terminal 12-residue peptide of Met-alpha(2)AP slows crosslinking of Met-alpha(2)AP(R6) or Met-alpha(2)AP(W6) by limiting access of factor XIIIa to Gln14 rather than shifting crosslinking to other Gln residues. Edman sequencing and mass analyses of tryptic peptides from each alpha(2)AP crosslinked with 5-(biotinamido)pentylamine showed Gln14 as the only major crosslinking site. Residues 5-8, GRQL in Met-alpha(2)AP(R6), and residues 1-8, MEPLGWQL in Met-alpha(2)AP(W6), slow fibrin crosslinking. Gln14 in both Met-alpha(2)AP(R6) and Met-alpha(2)AP(W6) is sheltered by the N-terminal 12-residue peptide, which, when cleaved, yields Asn-alpha(2)AP, which is rapidly crosslinked to fibrin and maximally protects it from plasmin. The R6 W polymorphism in Met-alpha(2)AP does not affect its crosslinking to fibrin, but it does slow cleavage by APCE and reduces the amount of Asn-alpha(2)AP available for rapid crosslinking to fibrin.
  Journal of Thrombosis and Haemostasis 11/2007; 5(10):2095-104. · 5.73 Impact Factor
• Article: Crosslinking of alpha 2-antiplasmin to fibrin.

  K N Lee, C S Lee, W C Tae, K W Jackson, V J Christiansen, P A McKee
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  ABSTRACT: Human alpha 2-antiplasmin (alpha 2AP) is the primary inhibitor of plasmin-mediated fibrinolysis and is an efficient substrate of activated factor XIII (FXIIIa). Among 452 amino acid residues in alpha 2AP, Gln2 is believed to be the sole FXIIIa-reactive site that participates in crosslinking alpha 2AP to fibrin. We studied the effect of mutating Gln2 on the ability of FXIIIa to catalyze crosslinking of alpha 2AP to fibrin. By FXIIIa catalysis, [14C]methylamine was incorporated into a Q2A-alpha 2AP mutant in which Gln2 (Q) was replaced by Ala (A), thereby indicating that wildtype alpha 2AP has more than one FXIIIa-reactive site. To identify the FXIIIa-reactive sites in alpha 2AP, wildtype alpha 2AP and Q2A-alpha 2AP were labeled with 5-(biotinamido)pentylamine by FXIIIa. Each labeled alpha 2AP was digested with trypsin and applied to an avidin affinity column to capture labeled peptides. Edman sequencing and mass analysis of each labeled peptide showed that out of 35 Gln residues in wildtype alpha 2AP, four were labeled with the following order of efficiency: Gln2 > Gln21 > Gln419 > Gln447. Q2A-alpha 2AP was also labeled at the three minor sites, Gln21 > Gln419 > Gln447. Q2A-alpha 2AP became crosslinked to fibirin(ogen) by FXIIIa catalysis at approximately one-tenth the rate of wt-alpha 2AP. These results demonstrate that alpha 2AP has one primary (Gln2) and three minor substrate sites for FXIIIa and that the three minor sites identified in this study can also participate in crosslink formation between alpha 2AP and fibrin, but at a much lower efficiency than the Gln2 site.
  Annals of the New York Academy of Sciences 02/2001; 936:335-9. · 3.15 Impact Factor
• Article: Cross-linking of wild-type and mutant alpha 2-antiplasmins to fibrin by activated factor XIII and by a tissue transglutaminase.

  K N Lee, C S Lee, W C Tae, K W Jackson, V J Christiansen, P A McKee
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  ABSTRACT: Human alpha(2)-antiplasmin (alpha(2)AP), the main inhibitor of plasmin-mediated fibrinolysis, is a substrate for plasma transglutaminase, also termed activated factor XIII (FXIIIa). Of 452 amino acids in alpha(2)AP, only Gln(2) is believed to be a fibrin-cross-linking (or FXIIIa-reactive) site. Kinetic efficiencies (k(cat)/K(m)((app))) of FXIIIa and the guinea pig liver tissue transglutaminase (tTG) and reactivities of Gln substrate sites were compared for recombinant wild-type alpha(2)AP (WT-alpha(2)AP) and Q2A mutant alpha(2)AP (Q2A-alpha(2)AP). [(14)C]Methylamine incorporation showed the k(cat)/K(m)((app)) of FXIIIa to be 3-fold greater than that of tTG for WT-alpha(2)AP. With FXIIIa or tTG catalysis, [(14)C]methylamine was incorporated into Q2A-alpha(2)AP, indicating that WT-alpha(2)AP has more than one Gln cross-linking site. To identify transglutaminase-reactive sites in WT-alpha(2)AP or Q2A-alpha(2)AP, each was labeled with 5-(biotinamido)pentylamine by FXIIIa or tTG catalysis. After each labeled alpha(2)AP was digested by trypsin, sequence and mass analyses of each labeled peptide showed that 4 of 35 Gln residues were labeled with the following reactivities: Gln(2) > Gln(21) > Gln(419) > Gln(447). Q(2)A-alpha(2)AP was also labeled at Gln(21) > Gln(419) > Gln(447), but became cross-linked to fibrin by FXIIIa or tTG at approximately one-tenth the rate for WT-alpha(2)AP. These results show that alpha(2)AP is a better substrate for FXIIIa than for this particular tTG, but that either enzyme involves the same Gln substrate sites in alpha(2)AP and yields the same order of reactivities.
  Journal of Biological Chemistry 01/2001; 275(48):37382-9. · 4.77 Impact Factor
• Article: Characterization of wild-type and mutant alpha2-antiplasmins: fibrinolysis enhancement by reactive site mutant.

  K N Lee, W C Tae, K W Jackson, S H Kwon, P A McKee
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  ABSTRACT: During human blood clotting, alpha2-antiplasmin (alpha2AP) becomes covalently linked to fibrin when activated blood clotting factor XIII (FXIIIa) catalyzes the formation of an isopeptide bond between glutamine at position two in alpha2AP and a specific epsilon-lysyl group in each of the alpha-chains of fibrin. This causes fibrin to become resistant to plasmin-mediated lysis. We found that chemically Arg-modified alpha2AP, which lacked plasmin-inhibitory activity, competed effectively with native alpha2AP for becoming cross-linked to fibrin and as a consequence, enhanced fibrinolysis. Recombinant alpha2AP reported to date by other groups either lacked or possessed a low level of FXIIIa substrate activity. As a first step in the development of an engineered protein that might have potential as a localized fibrin-specific fibrinolytic enhancer, we expressed recombinant alpha2AP in Pichia pastoris yeast. Two forms of nonglycosylated recombinant alpha2AP were expressed, isolated and characterized: (1) wild-type, which was analogous to native alpha2AP, and (2) a mutant form, which had Ala substituted for the reactive-site Arg364. Both the wild-type and mutant forms of alpha2AP functioned as FXIIIa substrates with affinities and kinetic efficiencies comparable to those of native alpha2AP, despite each having an additional acetylated Met blocking group at their respective amino-termini. Wild-type recombinant alpha2AP displayed full plasmin inhibitory activity, while mutant alpha2AP had none. Neither the absence of glycosylation nor blockage of the amino-terminus affected plasmin-inhibitory or FXIIIa substrate activities of wild-type alpha2AP. When our mutant alpha2AP, which lacked plasmin-inhibitory function, was added to human plasma or whole blood clots, urokinase (UK)-induced clot lysis was enhanced in a dose-dependent manner, indicating that mutant alpha2AP augmented lysis by competing with native alpha2AP for FXIIIa-catalyzed incorporation into fibrin.
  Blood 08/1999; 94(1):164-71. · 9.90 Impact Factor
• Article: Effect of phenylglyoxal-modified alpha2-antiplasmin on urokinase-induced fibrinolysis.

  K N Lee, S C Lee, K W Jackson, W C Tae, D G Schwartzott, P A McKee
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  ABSTRACT: One of the functions of activated blood clotting factor XIII (FXIIIa) is the crosslinking of alpha2-antiplasmin (alpha2AP) to fibrin. This process results in localization and concentration of alpha2AP throughout fibrin, thereby making fibrin more resistant to digestion by plasmin. We reasoned that competition by chemically-modified inactive alpha2AP (mod alpha2AP) with native alpha2AP would diminish the resistance of fibrin to digestion by plasmin. Mod alpha2AP was prepared by treating native alpha2AP with an Arg-specific reagent, phenylglyoxal. An average of four of the total nineteen Arg residues in alpha2AP reacted with phenylglyoxal and resulted in complete loss of plasmin inhibitory activity; however, mod alpha2AP competed effectively with native alpha2AP for becoming crosslinked to fibrin by FXIIIa catalysis. In the presence of mod alpha2AP, urokinase (UK)-induced plasma clot lysis time shortened significantly. Mod alpha2AP enhanced UK-induced clot lysis in a whole blood system as shown by the similarities of rates of clot lysis for a mixture of 20 U/ml UK and 1.5 microM mod alpha2AP versus that induced by 100 U/ml UK without mod alpha2AP. Less fibrinogenolysis occurred in whole blood when mod alpha2AP was present since much lower UK concentrations were needed to achieve the same level of fibrinolysis than when only native alpha2AP was present. Our results indicate that mod alpha2AP enhances UK-induced fibrinolysis by competitive inhibition of factor XIIIa-mediated incorporation of native alpha2AP into fibrin.
  Thrombosis and Haemostasis 11/1998; 80(4):637-44. · 5.04 Impact Factor
• Article: Purification of human alpha 2-antiplasmin with chicken IgY specific to its carboxy-terminal peptide.

  S C Lee, K N Lee, D G Schwartzott, K W Jackson, W C Tae, P A McKee
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  ABSTRACT: alpha 2-antiplasmin, a plasma glycoprotein of the serpin superfamily, is the primary physiological inhibitor of plasmin, the key enzyme in fibrin degradation. Previous purification methods utilize lengthy multistep protocols with low yields or use monoclonal antibodies that are expensive or difficult to make. With a relatively small investment, a chicken was immunized with keyhole limpet hemocyanin-conjugated to alpha 2-antiplasmin C-terminal 26 residue synthetic peptide and the peptide-specific antibody (IgY) was isolated from the egg yolks of hens using the peptide affinity column. Based on the interaction between this IgY and alpha 2-antiplasmin, pure alpha 2-antiplasmin was isolated from human plasma in two steps: (a) citrated plasma was precipitated with 15% PEG-8000 to remove the bulk of plasma proteins while retaining the majority of alpha 2-antiplasmin activity; and (b) the alpha 2-antiplasmin was affinity-purified from the supernatant using the IgY column. Yields were typically 48% and the purity and authenticity of the alpha 2-antiplasmin were verified by gel electrophoresis, Western Blot analysis, N-terminal sequence, and amino acid analysis.
  Preparative Biochemistry &amp Biotechnology 12/1997; 27(4):227-37. · 0.47 Impact Factor
• Article: Hierarchies in the binding of human factor XIII, factor XIIIa, and endothelial cell transglutaminase to human plasma fibrinogen, fibrin, and fibronectin.

  K E Achyuthan, T C Rowland, P J Birckbichler, K N Lee, P D Bishop, A M Achyuthan
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  ABSTRACT: The affinities of Factor XIII (FXIII), Factor XIIIa (FXIIIa), and cellular transglutaminase (Tg) for fibrinogen (Fgn), fibrin (Fbn), and fibronectin (Fn) were compared using a solid-phase binding assay. Initial rates of binding were as follows: FXIII bound Fbn 3-fold more than Fgn. FXIII did not bind Fn till 20 min. Increasing the ligands concentrations and binding time, resulted in weak binding of FXIII to Fn. FXIIIa bound Fbn 2-fold more than Fgn and 28-fold more than Fn. Tg bound Fn approximately 130-fold more than either Fgn or Fbn. At equilibrium, the extent of binding was determined to be as follows: FXIII bound Fbn 3-15-fold more than Fgn and 8-fold more than Fn. FXIIIa bound Fgn and Fbn equally and 12-25-fold more than Fn. FXIIIa bound Fgn or Fbn 2-fold and 25-fold greater than FXIII-Fbn and FXIII-Fgn interactions, respectively. Tg bound about equally to Fgn and Fbn and 10-20-fold less than Fn. The Kds' for FXIIIa binding to Fn, Fgn, and Fbn were 100, 23, and 19 nM, respectively. The Kd for Tg binding to Fn was 6.5 nM. The binding hierarchies are: [Tg-Fn] > [FXIIIa-Fgn] = [FXIIIa-Fbn] > [FXIII-Fbn] > [FXIII-Fgn] = [FXIIIa-Fn] > [Tg-Fbn] = [Tg-Fgn] > [FXIII-Fn]. Such hierarchies could regulate the cross-linkings by FXIIIa and Tg during hemostasis, wound healing, and cell adhesion.
  Molecular and Cellular Biochemistry 09/1996; 162(1):43-9. · 2.06 Impact Factor
• Article: Immunochemical analyses of human plasma fibronectin-cytosolic transglutaminase interactions.

  K E Achyuthan, R J Goodell, J R Kennedye, K N Lee, A Henley, J R Stiefer, P J Birckbichler
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  ABSTRACT: 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. CaCl2 (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 (IC50 = 2.3 nM) or by anti-fibronectin IgG (IC50 = 0.5 microM). Inclusion of dithiothreitol or 2-mercaptoethanol during binding resulted in a concentration-dependent inhibition of transglutaminase-fibronectin interactions (IC50 = 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.
  Journal of Immunological Methods 04/1995; 180(1):69-79. · 2.20 Impact Factor
• Article: Site-directed mutagenesis of human tissue transglutaminase: Cys-277 is essential for transglutaminase activity but not for GTPase activity.

  K N Lee, S A Arnold, P J Birckbichler, M K Patterson, B M Fraij, Y Takeuchi, H A Carter
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  ABSTRACT: Transglutaminases (EC 2.3.2.13) catalyze an acyl-transfer reaction between peptide-bound glutamine residues and primary amines, including the epsilon-amino group of lysine residues in protein. Purified human erythrocyte transglutaminase was found to have another activity, i.e., GTP hydrolysis. Treatment of the enzyme with iodoacetamide, a cysteine-directed reagent, caused a 94% loss of TGase activity within 8 min, but no significant loss of GTPase activity. Cys-277, a known residue which is selectively modified by iodoacetamide, was replaced with Ser by site-directed mutagenesis to assess the role of the Cys-277 in the transglutaminase/GTPase activities. Wild-type cDNA, coding for human endothelial cell transglutaminase, and its C277S-mutated cDNA were cloned into a plasmid vector that contained a promoter from phage T7, and then expressed in Escherichia coli. The wild-type recombinant enzyme was indistinguishable from human erythrocyte transglutaminase in mobility on a SDS-polyacrylamide gel, immunoreactivity and catalytic activities for transglutaminase and GTPase. However, the recombinant enzyme was not blocked at the N-terminal alanine residue, as is the case in the naturally occurring erythrocyte enzyme. The C277S mutant enzyme showed no transglutaminase activity, but had Km and kcat values for GTPase activity that were comparable to those of wild-type recombinant and natural erythrocyte enzymes. These results demonstrate that Cys-277 is essential for transglutaminase activity, but not for GTPase activity, and that N-terminal blocking of tissue-type transglutaminase is not critical for either transglutaminase or GTPase activities.
  Biochimica et Biophysica Acta 10/1993; 1202(1):1-6. · 4.66 Impact Factor
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  Available from: jbc.org

  Article: A retinoic acid-inducible mRNA from human erythroleukemia cells encodes a novel tissue transglutaminase homologue.

  B M Fraij, P J Birckbichler, M K Patterson, K N Lee, R A Gonzales
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  ABSTRACT: A 1.9-kilobase (kb) cDNA for a new transglutaminase protein has been cloned and sequenced from retinoic acid-induced human erythroleukemia (HEL) cells. Full-length cDNA analysis reveals an open reading frame coding for a polypeptide of 548 amino acid residues with a molecular weight of 61,740. The deduced amino acid sequence exhibited 98% identity to the human cellular transglutaminase sequence. The cysteine at position 277 in the active site and the putative Ca(2+)-binding pocket at residues 446-453 of cellular transglutaminase are conserved. Such evidence predicts that the encoded protein product is likely to be a transglutaminase homologue (TGase-H). Immunoprecipitation of the in vitro translation products from a synthetic TGase-H mRNA and from total protein of cultured erythroleukemia HEL cells revealed a protein with a molecular weight of 63,000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Northern blot analysis of HEL cells and normal human fibroblast cells WI-38 using a cellular TGase probe detected the 1.9- and 4.0-kb RNA species at a relative abundance of 1:3 and 1:7, respectively. The 3'-end of the human cellular transglutaminase mRNA was also cloned and sequenced to allow comparison to the 3'-end of TGase-H reported here. This new piece gives a full length of 4012 nucleotides (4.0 kb) for human cellular transglutaminase. Comparison of the 5'-end (bases 1-1747) of the 1.9- and 4.0-kb cDNA sequences revealed a very high degree of identity. Beginning with base 1748, the sequences diverge showing no homology. The divergence point correlates with known intron-exon consensus boundaries indicative of alternative splicing.
  Journal of Biological Chemistry 12/1992; 267(31):22616-23. · 4.77 Impact Factor
• Article: Identification of transglutaminase substrates in HT29 colon cancer cells: use of 5-(biotinamido)pentylamine as a transglutaminase-specific probe.

  K N Lee, M D Maxwell, M K Patterson, P J Birckbichler, E Conway
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  ABSTRACT: A biotinamine probe, 5-(biotinamido)pentylamine, was used for biotin-labeling of proteins in HT29 colon cancer cell extracts by endogenous transglutaminase activity. The biotin-labeled protein substrates were isolated and recovered by avidin-affinity chromatography. The proteins were separated using SDS-polyacrylamide gel electrophoresis, electroblotted onto a polyvinylidene difluoride membrane, visualized using Coomassie blue, cut out, and sequenced. Amino acid sequence data identified human fructose-1,6-bisphosphate aldolase A, an intracellular protein, as a substrate for cellular transglutaminase.
  Biochimica et Biophysica Acta 08/1992; 1136(1):12-6. · 4.66 Impact Factor
• Article: Putative nucleotide binding sites of guinea pig liver transglutaminase.

  Y Takeuchi, P J Birckbichler, M K Patterson, K N Lee
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  ABSTRACT: Three peptides corresponding to glycine-rich internal sequences of the guinea pig liver transglutaminase molecule were synthesized. These were peptide 1 (amino acid residues 520-544), peptide 2 (amino acid residues 345-367) and peptide 3 (amino acid residues 45-69). All of the synthetic peptides demonstrated significant binding ability for both ATP and GTP. Peptide 1 was the best protector of transglutaminase activity from both ATP and GTP inhibition, while peptides 2 and 3 protected the activity only from GTP inhibition. The data shown here lead us to propose putative binding site(s) for ATP and GTP guinea pig liver transglutaminase.
  FEBS Letters 08/1992; 307(2):177-80. · 3.54 Impact Factor
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  Available from: jbc.org

  Article: Isolation and characterization of cDNA clones to mouse macrophage and human endothelial cell tissue transglutaminases.

  V Gentile, M Saydak, E A Chiocca, O Akande, P J Birckbichler, K N Lee, J P Stein, P J Davies
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  ABSTRACT: The deduced amino acid sequences for tissue transglutaminases from human endothelial cells and mouse macrophages have been derived from cloned cDNAs. Northern blot analysis of both tissue transglutaminases shows a message size of approximately 3.6-3.7 kilobases. The molecular weights calculated from the deduced amino acid sequences were 77,253 for human endothelial tissue transglutaminase and 76,699 for mouse macrophage tissue transglutaminase. The deduced amino acid sequence for the human endothelial transglutaminase was confirmed by comparison with the amino acid sequence obtained by cyanogen bromide digestion of the human erythrocyte transglutaminase. The amino acid sequences of both human endothelial and mouse macrophage tissue transglutaminases were compared to other transglutaminases. A very high degree of homology was found between human endothelial, mouse macrophage, and guinea pig liver tissue transglutaminase (greater than 80%). Moreover, human endothelial tissue transglutaminase was compared with human Factor XIIIa and a very high degree of homology (75% identity) was found in the active site region.
  Journal of Biological Chemistry 02/1991; 266(1):478-83. · 4.77 Impact Factor
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  Available from: aacrjournals.org

  Article: Differential expression of transglutaminase in human erythroleukemia cells in response to retinoic acid.

  T Suedhoff, P J Birckbichler, K N Lee, E Conway, M K Patterson
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  ABSTRACT: Two human erythroleukemia cell lines, HEL and K562, express transglutaminase activity. The enzyme was identified as a tissue transglutaminase following chromatographic purification. All-trans-retinoic acid (10 microM) stimulated differentiation in HEL cells as judged by a 4-fold increase in hemoglobin content and a reduction in cell proliferation. The transglutaminase activity increased 9-fold. This increase in transglutaminase was the result of a pretranslational regulation of the gene as revealed by Northern blot analysis of mRNA. These changes were not a result of cell apoptosis, since parallel DNA degradation catalyzed by a Ca2(+)-dependent endonuclease could not be demonstrated. The K562 cells, in contrast, showed no transglutaminase induction following exposure to retinoic acid and displayed no changes in maturation markers or cell growth.
  Cancer Research 01/1991; 50(24):7830-4. · 7.86 Impact Factor
• Article: Colorimetric assay for cellular transglutaminase.

  W M Jeon, K N Lee, P J Birckbichler, E Conway, M K Patterson
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  ABSTRACT: A colorimetric assay for cellular transglutaminase using 5-(biotinamido)pentylamine and polyvinylidine difluoride membranes for crude cellular preparations and purified enzyme has been developed. The biotinpentylamine substrate was incorporated into N,N-dimethylcasein by transglutaminase, the biotinylated products were adsorbed onto the membrane disks and conjugated with streptavidin-beta-galactosidase, and the absorbance resulting from the formation of p-nitrophenol from hydrolysis of p-nitrophenyl-beta-D-galactopyranoside was measured at 405 nm. The validity of the assay was established by showing a good correlation, gamma = 0.922, between the colorimetric procedure and the commonly used radiometric filter paper method for the enzyme. The procedure offers a rapid, sensitive, and nonisotopic method for the estimation of cellular transglutaminase activity in as low as 20 ng of purified guinea pig liver transglutaminase and 10 micrograms of crude fibroblast cytosol protein.
  Analytical Biochemistry 11/1989; 182(1):170-5. · 3.00 Impact Factor
• Article: GTP hydrolysis by guinea pig liver transglutaminase.

  K N Lee, P J Birckbichler, M K Patterson
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  ABSTRACT: Homogeneous guinea pig liver transglutaminase was purified from a commercially available enzyme preparation by affinity chromatography on GTP-agarose. The purified transglutaminase exhibited a single band of apparent Mr = 80,000 on sodium dodecyl sulfate polyacrylamide gel and Western blotting and had enzyme activity of both transglutaminase and GTPase. The guinea pig liver transglutaminase has an apparent Km value of 4.4 microM for GTPase activity. GTPase activity was inhibited by guanine nucleotides in order GTP-gamma-S greater than GDP, but not by GMP. These results demonstrate that purified guinea pig liver transglutaminase catalyzes GTP hydrolysis.
  Biochemical and Biophysical Research Communications 09/1989; 162(3):1370-5. · 2.48 Impact Factor
• Article: Evaluation of phenylthiourea derivatives as inhibitors of transglutaminase-catalyzed reaction in Chinese hamster ovary cells.

  K N Lee, S I Chung, J E Girard, L Fesus
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  ABSTRACT: 1-(5-Aminopentyl)-3-phenylthiourea (PPTU), a recently developed inhibitor of the transglutaminase-catalyzed reaction (K.N. Lee, L. Fesus, S.T. Yancey, J.E. Girard, and S.I. Chung, (1985) J. Biol. Chem. 260, 14689-14694) was evaluated as a possible probe to examine the physiological role of transglutaminase (EC 2.3.2.13) in Chinese hamster ovary (CHO) cells. The [14C]PPTU in cell culture was readily taken up by CHO cells and was found to be covalently attached to high-molecular-weight proteins which are associated with the particulate fractions. Incubating cell homogenates, in the presence of Ca2+, incorporated the labeled PPTU exclusively into high-molecular-weight proteins that were also undergoing polymerization. PPTU at 0.1 mM, a concentration close to the Ki value reported for inhibition of tissue transglutaminase-catalyzed amine incorporation into the B chain of oxidized insulin, decreased high-molecular-weight protein polymerization, whereas PPTU at the same concentrations showed no effect on CHO cell proliferation or on in vitro calmodulin activation of cyclic nucleotide phosphodiesterase. These results suggest that transglutaminase may not be a constitutive enzyme in cell proliferation.
  Biochimica et Biophysica Acta 12/1988; 972(2):120-30. · 4.66 Impact Factor