Your search keyword '"Jules A. Shafer"' showing total 111 results

1. P2 pyridine N-oxide thrombin inhibitors: a novel peptidomimetic scaffold

Author

Robinson Kyle A, Terry A. Lyle, Audrey A. Wallace, Christina L. Newton, Zhongguo Chen, James Z. Deng, Cynthia Miller-Stein, Bobby J. Lucas, Daniel R. McMasters, Janetta M. Pellicore, Harold G. Selnick, Joseph J. Lynch, Rebecca B. White, Lawrence Kuo, Julie A. Krueger, Christopher S. Burgey, Bradley K. Wong, Youwei Yan, Joseph P. Vacca, S. Dale Lewis, Jules A. Shafer, Stephen J. Gardell, and Philippe G. Nantermet

Subjects

Models, Molecular, Molecular model, Stereochemistry, medicine.drug_class, Peptidomimetic, Clinical Biochemistry, Pharmaceutical Science, Carboxamide, Biochemistry, Chemical synthesis, Antithrombins, Thrombin, Drug Discovery, medicine, Molecular Biology, chemistry.chemical_classification, biology, Molecular Mimicry, Organic Chemistry, Hydrogen Bonding, Pyrimidines, Enzyme, chemistry, Enzyme inhibitor, biology.protein, Molecular Medicine, medicine.drug, Discovery and development of direct thrombin inhibitors

Abstract

In this study, we have demonstrated that the critical hydrogen bonding motif of the established 3-aminopyrazinone thrombin inhibitors can be effectively mimicked by a 2-aminopyridine N-oxide. As this peptidomimetic core is more resistant toward oxidative metabolism, it also overcomes the metabolic liability associated with the pyrazinones. An optimization study of the P(1) benzylamide delivered the potent thrombin inhibitor 21 (K(i) = 3.2 nM, 2xaPTT = 360 nM), which exhibited good plasma levels and half-life after oral dosing in the dog (C(max) = 2.6 microM, t(1/2) = 4.5 h).

Published

2005

2. Pharmacokinetic optimization of 3-amino-6-chloropyrazinone acetamide thrombin inhibitors. implementation of P3 pyridine N-Oxides to deliver an orally bioavailable series containing P1 N-Benzylamides

Author

Christopher S. Burgey, Joseph J. Lynch, Bobby J. Lucas, Lawrence Kuo, Dennis L. Bohn, Jules A. Shafer, Bradley K. Wong, Rominder Singh, Janetta M. Pellicore, Cynthia Miller-Stein, Audrey A. Wallace, Franklin C. Clayton, Stephen J. Gardell, Terry A. Lyle, Maria T. Stranieri, Denise C. Welsh, Daniel R. McMasters, Philippe G. Nantermet, Elizabeth A. Lyle, Harold G. Selnick, Joseph P. Vacca, Zhongguo Chen, Jacquelynn J. Cook, Rebecca B. White, Youwei Yan, Richard C.A. Isaacs, Julie A. Krueger, S. Dale Lewis, Swati Pal, and Robinson Kyle A

Subjects

Models, Molecular, Chemical Phenomena, Pyridines, Clinical Biochemistry, Biological Availability, Pharmaceutical Science, In Vitro Techniques, Crystallography, X-Ray, Biochemistry, Chemical synthesis, Structure-Activity Relationship, chemistry.chemical_compound, Dogs, Thrombin, Oral administration, Acetamides, Drug Discovery, medicine, Animals, Humans, Organic chemistry, Molecular Biology, biology, Chemistry, Physical, Organic Chemistry, Oxides, Thrombosis, Macaca mulatta, Rats, Bioavailability, Solubility, chemistry, Enzyme inhibitor, Pyrazines, Injections, Intravenous, Microsomes, Liver, biology.protein, Molecular Medicine, Lead compound, Acetamide, Half-Life, Discovery and development of direct thrombin inhibitors, medicine.drug

Abstract

In this manuscript we demonstrate that a modification principally directed toward the improvement of the aqueous solubility (i.e., introduction a P3 pyridine N-oxide) of the previous lead compound afforded a new series of potent orally bioavailable P1 N-benzylamide thrombin inhibitors. An expedited investigation of the P1 SAR with respect to oral bioavailability, plasma half-life, and human liver microsome stability revealed 5 as the best candidate for advanced evaluation.

Published

2003

3. Metabolism-Directed Optimization of 3-Aminopyrazinone Acetamide Thrombin Inhibitors. Development of an Orally Bioavailable Series Containing P1 and P3 Pyridines

Author

Bobby J. Lucas, Franklin C. Clayton, Daniel R. McMasters, James C. Barrow, Peter D. Williams, Robinson Kyle A, Theodore J. Detwiler, Yvonne M. Leonard, Sanderson Philip E, Julie A. Krueger, S. Dale Lewis, Rebecca B. White, Elizabeth A. Lyle, Cynthia Miller-Stein, William M. Sanders, Marie A. Holahan, Colleen M. McDonough, Youwei Yan, Jacquelynn J. Cook, Maria T. Stranieri, Joseph J. Lynch, Rominder Singh, G. R. Sitko, Lawrence Kuo, Terry A. Lyle, Craig A. Coburn, Zhongguo Chen, Dennis L. Bohn, Jules A. Shafer, Joseph P. Vacca, Audrey A. Wallace, Bruce D. Dorsey, Bradley K. Wong, Christopher S. Burgey, and Stephen J. Gardell

Subjects

Models, Molecular, Pyridines, medicine.drug_class, Administration, Oral, Biological Availability, Carboxamide, Crystallography, X-Ray, Structure-Activity Relationship, chemistry.chemical_compound, Dogs, Thrombin, Pharmacokinetics, Oral administration, Acetamides, Drug Discovery, medicine, Animals, Protease Inhibitors, biology, Anticoagulants, Macaca mulatta, Rats, Bioavailability, chemistry, Biochemistry, Enzyme inhibitor, Pyrazines, biology.protein, Molecular Medicine, Acetamide, medicine.drug, Discovery and development of direct thrombin inhibitors

Abstract

Recent efforts in the field of thrombin inhibitor research have focused on the identification of compounds with good oral bioavailability and pharmacokinetics. In this manuscript we describe a metabolism-based approach to the optimization of the 3-(2-phenethylamino)-6-methylpyrazinone acetamide template (e.g., 1) which resulted in the modification of each of the three principal components (i.e., P1, P2, P3) comprising this series. As a result of these studies, several potent thrombin inhibitors (e.g., 20, 24, 25) were identified which exhibit high levels of oral bioavailability and long plasma half-lives.

Published

2003

4. Characterization of Plasmin-mediated Activation of Plasma Procarboxypeptidase B

Author

Stephen J. Gardell, Shi-Shan Mao, C. M. Cooper, Theresa Wood, and Jules A. Shafer

Subjects

biology, Plasmin, Chemistry, organic chemicals, medicine.medical_treatment, food and beverages, Cell Biology, Thrombomodulin, Biochemistry, Fibrin, stomatognathic diseases, fluids and secretions, Thrombin, Zymogen, Fibrinolysis, medicine, biology.protein, Biophysics, Molecular Biology, Carboxypeptidase B2, Plasminogen activator, reproductive and urinary physiology, medicine.drug

Abstract

Plasma carboxypeptidase B (PCB) is an exopeptidase that exerts an antifibrinolytic effect by releasing C-terminal Lys and Arg residues from partially degraded fibrin. PCB is produced in plasma via limited proteolysis of the zymogen, pro-PCB. In this report, we show that the K m (55 nm) for plasmin-catalyzed activation of pro-PCB is similar to the plasma concentration of pro-PCB (50–70 nm), whereas the K m for the thrombin- or thrombin:thrombomodulin-catalyzed reaction is 10–40-fold higher than the pro-PCB level in plasma. Additionally, tissue-type plasminogen activator triggers activation of pro-PCB in blood plasma in a reaction that is stimulated by a neutralizing antibody versusα2-antiplasmin. Together, these results show that plasmin-mediated activation of pro-PCB can occur in blood plasma. Heparin (UH) and other anionic glycosaminoglycans stimulate pro-PCB activation by plasmin but not by thrombin or thrombin:thrombomodulin. Pro-PCB is a more favorable substrate for plasmin in the presence of UH (16-fold increase ink cat/K m). UH also stabilizes PCB against spontaneous inactivation. The presence of UH in clots prepared with prothrombin-deficient plasma delays tissue-type plasminogen activator-triggered lysis; this effect of UH on clot lysis is blocked by a PCB inhibitor from potato tubers. These results show that UH accelerates plasmin-catalyzed activation of pro-PCB in plasma and PCB, in turn, stabilizes fibrin against fibrinolysis. We propose that glycosaminoglycans in the subendothelial extracellular matrix serve to augment the levels of PCB activity thereby stabilizing blood clots at sites where there is a breach in the integrity of the vasculature.

Published

1999

5. Identification and SAR for a selective, nonpeptidyl thrombin inhibitor

Author

Jules A. Shafer, Charles N. Habecker, Joseph P. Vacca, William M. Sanders, Thomas J. Tucker, Zhonguo Chen, A. M. Mulichak, S. Dale Lewis, Gerald S. Ponticello, Adel M. Naylor-Olsen, and Brian T. Phillips

Subjects

Models, Molecular, Stereochemistry, Clinical Biochemistry, Pharmaceutical Science, Biochemistry, Chemical synthesis, Antithrombins, Structure-Activity Relationship, Thrombin, Drug Discovery, medicine, Molecular Biology, chemistry.chemical_classification, Binding Sites, Crystallography, biology, Organic Chemistry, Chemical modification, Active site, Ligand (biochemistry), Combinatorial chemistry, Enzyme, chemistry, Enzyme inhibitor, biology.protein, Molecular Medicine, Chemical stability, medicine.drug

Abstract

A novel, nonpeptidyl thrombin inhibitor, L-636,619 (1), was identified via topological similarity searching over the Merck Corporate Sample Database. X-ray crystallographic studies determined the geometry for ligand binding to the enzyme. Chemical modification of the P1 and P3 segments of the ligand resulted in enhanced potency and improvement in the chemical stability of the lead. Analog 9 proved to be the most interesting lead from this structurally novel series.

Published

1998

6. L-374,087, an efficacious, orally bioavailable, pyridinone acetamide thrombin inhibitor

Author

S. Dale Lewis, Elizabeth A. Lyle, I.-W. Chen, Julie A. Krueger, Jacquelynn J. Cook, Zhongguo Chen, Jiunn H. Lin, Joseph P. Vacca, Bruce D. Dorsey, Adel M. Naylor-Olsen, Jules A. Shafer, Joseph J. Lynch, Kellie J. Cutrona, Bobby J. Lucas, Colleen M. McDonough, Dona L. Dyer, Maria T. Stranieri, Sanderson Philip E, Kari Vastag, and Stephen J. Gardell

Subjects

Models, Molecular, Pyridones, medicine.drug_class, Stereochemistry, Clinical Biochemistry, Administration, Oral, Biological Availability, Pharmaceutical Science, Carboxamide, Pharmacology, Crystallography, X-Ray, Ferric Compounds, Biochemistry, Structure-Activity Relationship, chemistry.chemical_compound, Dogs, Thrombin, Chlorides, Pharmacokinetics, Oral administration, Drug Discovery, medicine, Animals, Trypsin, Molecular Biology, Sulfonamides, Molecular Structure, biology, Chemistry, Organic Chemistry, Anticoagulants, Thrombosis, Biological activity, Rats, Kinetics, Macaca fascicularis, Enzyme inhibitor, biology.protein, Molecular Medicine, Acetamide, medicine.drug

Abstract

Replacement of the amidinopiperidine P1 group of 3-benzylsulfonylamino-6-methyl-2-pyridinone acetamide thrombin inhibitor L-373,890 (2) with a mildly basic 5-linked 2-amino-6-methylpyridine results in an equipotent compound L-374,087 (5, Ki = 0.5 nM). Compound 5 is highly selective for thrombin over trypsin, is efficacious in the rat ferric chloride model of arterial thrombosis and is orally bioavailable in dogs and cynomolgus monkeys. The structural basis for the critical importance of both methyl groups in 5 was confirmed by X-ray crystallography.

Published

1998

7. Kinetic Pathway for the Slow to Fast Transition of Thrombin

Author

Enrico Di Cera, Jules A. Shafer, and Ming-Tain Lai

Subjects

chemistry.chemical_classification, biology, Stereochemistry, Allosteric regulation, Active site, Cell Biology, Ligand (biochemistry), Biochemistry, Small molecule, Enzyme, Thrombin, chemistry, medicine, biology.protein, Binding site, Molecular Biology, Conformational isomerism, medicine.drug

Abstract

The kinetic pathway for the Na+-induced slow → fast transition of thrombin was characterized. The slow form was shown to consist of two conformers in a 3:1 ratio (E S2:E S1) at 5 °C, pH 7.4, Γ/2 0.3. E S2 binds Na+ 3 orders of magnitude faster than doesE S1. The small molecule active site-directed inhibitor L-371,912, and the exosite I binding ligand hirugen, like Na+, bind selectively to E S2 and induce the slow → fast conversion of thrombin. The slow → fast transition is limited by the rate of conversion ofE S1 to E S2 (k∼28 s−1 at 5 °C). Replacement of Arg-221a or Lys-224 at the Na+ binding site with Ala appears to selectively alter the slow form and reduce the apparent affinity of the mutants for Na+ and L-371,912. This replacement, however, has little effect on the affinity for the inhibitor in the presence of saturating concentrations of Na+. The kinetically linked ligand binding at the Na+ binding site, exosite I, and the active site of thrombin characterized in the present study indicates the basis for the plasticity of this important enzyme, and suggests the possibility that the substrate specificity and, therefore, the procoagulant and anticoagulant activities of thrombin may be subject to allosteric regulation by as yet unidentified physiologically important effectors.

Published

1997

8. Discovery of a Novel, Selective, and Orally Bioavailable Class of Thrombin Inhibitors Incorporating Aminopyridyl Moieties at the P1 Position

Author

Shi-Shan Mao, E P Baskin, Julie A. Krueger, Mark G. Bock, Dong-Mei Feng, A. M. Mulichak, Stephen J. Gardell, Roger M. Freidinger, Lucas R, Ramjit Hg, Jules A. Shafer, S. D. Lewis, R Woltmann, K B Dancheck, Timothy R. Hare, J.J. Lynch, Adel M. Naylor-Olsen, I.-W. Chen, Zhongguo Chen, and Joe P. Vacca

Subjects

Pyridines, Stereochemistry, Administration, Oral, Biological Availability, Peptide, Crystallography, X-Ray, Chemical synthesis, Antithrombins, Structure-Activity Relationship, Dogs, Thrombin, Drug Discovery, medicine, Animals, Structure–activity relationship, chemistry.chemical_classification, biology, Chemistry, Dipeptides, Trypsin, Rats, Kinetics, Enzyme, Enzyme inhibitor, biology.protein, Molecular Medicine, medicine.drug, Discovery and development of direct thrombin inhibitors

Abstract

A novel class of thrombin inhibitors incorporating aminopyridyl moieties at the P1 position has been discovered. Four of these thrombin inhibitors (13b,c,e and 14d) showed nanomolar potency (Ki 0.8-12 nM), 300-1500-fold selectivity for thrombin compared with trypsin, and good oral bioavailability (F = 40-76%) in rats or dogs. The neutral P1 was expected to increase metabolic stability and oral absorption. Identification of this novel aminopyridyl group at P1 was a key step in our search for a clinical candidate.

Published

1997

9. Amide and α-keto carbonyl inhibitors of thrombin based on arginine and lysine: Synthesis, stability and biological characterization

Author

K.J. Stauffer, Jules A. Shafer, Stephen F. Brady, S. D. Lewis, John T. Sisko, D. F. Veber, Howard Qiu, Assunta S. Ng, Ruth F. Nutt, Michael J. Bogusky, and Christiana D. Colton

Subjects

Stereochemistry, Molecular Sequence Data, Clinical Biochemistry, Lysine, Carboxylic Acids, Pharmaceutical Science, Tripeptide, Spectrometry, Mass, Fast Atom Bombardment, Biochemistry, Antithrombins, Structure-Activity Relationship, chemistry.chemical_compound, Drug Stability, Amide, Drug Discovery, Side chain, Humans, Trypsin, Reactivity (chemistry), Amino Acid Sequence, Molecular Biology, Racemization, Molecular Structure, biology, Chemistry, Organic Chemistry, Thrombin, Active site, Ketones, Amides, Kinetics, Electrophile, biology.protein, Molecular Medicine, Indicators and Reagents, Trypsin Inhibitors, Oligopeptides

Abstract

We report structure-activity investigations in a series of tripeptide amide inhibitors of thrombin, and the development of a series of highly potent active site directed α-keto carbonyl inhibitors having the side chain of lysine at P1. Compounds of this class are unstable by virtue of reactivity at the electrophilic carbonyl and racemization at the adjacent carbon (CH). Modifications of prototype α-keto-ester 8a have afforded analogs retaining nanomolar Ki. Optimal potency and stability have been realized in α-keto-amides 11b (K i = 2.8 nM) and 11c (K i = 0.25 nM )

Published

1995

10. Identification and Characterization of Variants of Tick Anticoagulant Peptide with Increased Inhibitory Potency toward Human Factor Xa

Author

Shi-Shan Mao, Jules A. Shafer, Neeper Michael P, Jin Huang, Victor M. Garsky, and Carolee Welebob

Subjects

Molecular Sequence Data, Pharmacology, medicine.disease_cause, Inhibitory postsynaptic potential, Biochemistry, Arthropod Proteins, Structure-Activity Relationship, Ticks, medicine, Animals, Humans, Amino Acid Sequence, chemistry.chemical_classification, Mutation, Binding Sites, Base Sequence, Mutagenesis, Orders of magnitude (mass), Amino acid, Kinetics, Inhibitory potency, Enzyme, Models, Chemical, chemistry, Mutagenesis, Site-Directed, Intercellular Signaling Peptides and Proteins, Peptides, Tick anticoagulant peptide, Factor Xa Inhibitors

Abstract

Tick anticoagulant peptide (TAP) is a specific and potent inhibitor of factor Xa (fXa), a central enzyme in the blood clotting cascade. As such, TAP is a potential antithrombotic agent. Site-directed mutagenesis studies were undertaken to determine the feasibility of increasing the inhibitory potency of TAP toward fXa. The amino acid substitutions Tyr-1 to Trp (Y1W) and Asp-10 to Arg (D10R) increased inhibitory potency toward human fXa by 2.5- and 4-fold, respectively. The increased inhibitory potency reflected a decrease in the rate constant for dissociation of the final fXa-TAP inhibitory complex. The double mutant, Y1W/D10R, exhibited an inhibition constant of 10 pM, a 37-fold enhancement of inhibitory potency toward human fXa. The improvement in inhibitory potency was less pronounced (12-fold) with dog fXa wherein Kis of 220 and 18 pM were observed for wild-type TAP and the double mutant, respectively. Mutation of Tyr-1 to Glu (Y1E) generated a weaker inhibitor (Ki = 2 nM) that bound human fXa more slowly. However, no change in inhibitory potency toward human fXa was observed when Tyr-1 was replaced by Phe. Taken together, these observations are consistent with the view that a hydrophobic amino acid at the N-terminus of TAP may be a determinant of inhibitory potency. Decreases by 3-4 orders of magnitude in inhibitory potency were noted upon mutation of Asn-2 and Leu-4 of TAP, further implicating the N-terminal domain as an important determinant of inhibitory potency.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1995

11. Inhibition of Thrombin by Peptides Containing Lysyl-α-Keto Carbonyl Derivatives

Author

Sidney D Lewis, Assunta S Ng, Elizabeth A Lyle, Michael J Mellott, Sandra D Appleby, Stephen F Brady, Kenneth J Stauffer, John T Sisko, Shi-Shan Mao, Daniel F Veber, Ruth F Nutt, Joseph J Lynch, Jacquelynn J Cook, Stephen J Gardll, and Jules A Shafer

Subjects

chemistry.chemical_classification, biology, Stereochemistry, Plasmin, Hirudin, Hematology, Trypsin, chemistry.chemical_compound, Thrombin, Enzyme, chemistry, Biochemistry, Enzyme inhibitor, Amide, biology.protein, medicine, medicine.drug, Discovery and development of direct thrombin inhibitors

Abstract

SummarySeveral H-N-Me-D-Phe-Pro-Lysyl-α-keto carbonyl derivatives were shown to be potent thrombin inhibitors (Ki 0.2 to 27 nM). The inhibitory potencies of these compounds toward tissue plasminogen activator, plasmin and factor Xa were minimal; however, substantial cross-reactivity versus trypsin was observed (Ki values from 0.5 to 1500 nM). Inhibition of thrombin by α-keto carbonyl compounds appeared to occur via a one-step reversible reaction. The α-keto carbonyl inhibitors bound thrombin with a second order rate constant (k, 1–4 μM-1s-1) that was 10–100-fold slower than that expected for a diffusion-controlled reaction. Certain α-kelo earbonyl inhibitors were as potent (on a weight basis) as hirudin when evaluated in a rat arterial thrombosis model. The modest oral bioavailability (10–19%) in rats demonstrated for three of the α-keto carbonyl thrombin inhibitors suggests the possibility that α-keto amide containing thrombin inhibitors may have utility as orally-active antithrombotic agents.

Published

1995

12. Crystal structure at 1.9-A resolution of human immunodeficiency virus (HIV) II protease complexed with L-735,524, an orally bioavailable inhibitor of the HIV proteases

Author

Chris Culberson, Dawn L. Hall, Lawrence Kuo, Jules A. Shafer, Paul L. Darke, Zhongguo Chen, Ying Li, and Elizabeth Chen

Subjects

Proteases, Protease, biology, Stereochemistry, Chemistry, medicine.medical_treatment, Active site, Cell Biology, Biochemistry, chemistry.chemical_compound, Indinavir, Amide, Hydrolase, medicine, biology.protein, HIV Protease Inhibitor, Binding site, Molecular Biology, medicine.drug

Abstract

L-735,524 is a potent, orally bioavailable inhibitor of human immunodeficiency virus (HIV) protease currently in a Phase II clinical trial. We report here the three-dimensional structure of L-735,524 complexed to HIV-2 protease at 1.9-A resolution, as well as the structure of the native HIV-2 protease at 2.5-A resolution. The structure of HIV-2 protease is found to be essentially identical to that of HIV-1 protease. In the crystal lattice of the HIV-2 protease complexed with L-735,524, the inhibitor is chelated to the active site of the homodimeric enzyme in one orientation. This feature allows an unambiguous assignment of protein-ligand interactions from the electron density map. Both Fourier and difference Fourier maps reveal clearly the closure of the flap domains of the protease upon L-735,524 binding. Specific interactions between the enzyme and the inhibitor include the hydroxy group of the hydroxyaminopentane amide moiety of L-735,524 ligating to the carboxyl groups of the essential Asp-25 and Asp-25' enzymic residues and the amide oxygens of the inhibitor hydrogen bonding to the backbone amide nitrogen of Ile-50 and Ile-50' via an intervening water molecule. A second bridging water molecule is found between the amide nitrogen N2 of L-735,524 and the carboxyl oxygen of Asp-29'. Although other hydrogen bonds also add to binding, an equally significant contribution to affinity arises from hydrophobic interactions between the protease and the inhibitor throughout the pseudo-symmetric S1/S1', S2/S2', and S3/S3' regions of the enzyme. Except for its pyridine ring, all lipophilic moieties (t-butyl, indanyl, benzyl, and piperidyl) of L-735,524 are rigidly defined in the active site.

Published

1994

13. Purification of active herpes simplex virus-1 protease expressed in Escherichia coli

Author

Robert L. Lafemina, C A Veloski, Jules A. Shafer, Paul L. Darke, Elizabeth Chen, Dawn L. Hall, Lawrence Kuo, and Mohinder K. Sardana

Subjects

chemistry.chemical_classification, Protease, viruses, medicine.medical_treatment, Cell Biology, Biology, medicine.disease_cause, Biochemistry, Molecular biology, Virus, NS2-3 protease, Open reading frame, Herpes simplex virus, Enzyme, Capsid, chemistry, medicine, Molecular Biology, Escherichia coli

Abstract

Assembly of viral capsids for replication of herpes simplex virus requires the proteolytic processing of the assembly protein ICP35. The protease responsible for this process is encoded within the 635-amino acid open reading frame of the UL26 gene of the virus. A simple purification scheme is given in this report for the native, mature form of the protease expressed in Escherichia coli. The scheme allows the preparation of milligram quantities of purified enzyme for elucidation of kinetic mechanism as well as for structural studies. Utilizing a 13-residue peptide substrate representing the natural cleavage site that releases the protease, kcat and Km values of the purified native enzyme are 2.0 min-1 and 0.88 mM, respectively. Thus, peptide cleavage is less efficient than reported for other viral proteases. The possibility exists that viral or cellular factors are involved in vivo for activation of the protease for herpes capsid maturation.

Published

1994

14. Design of antithrombotic agents: An introduction

Author

Jules A. Shafer and Robert J. Gould

Subjects

Pharmacology, Fibrinogen receptor, Chemistry, Organic Chemistry, Antithrombin, Thrombomodulin, Thrombin, Prothrombinase, Drug Discovery, Thrombin receptor, medicine, Glycoprotein IIb/IIIa, Protein C, circulatory and respiratory physiology, medicine.drug

Abstract

A brief overview of the control of hemostasis is presented that relates physiologically important functions and interactions of the proteins discussed in this volume, i.e.: factor Xa, thrombin, antithrombin III, protein C, protein S, thrombomodulin, ADP receptor, thrombin receptor and fibrinogen receptor.

Published

1994

15. Sensitivity of HIV-1 Reverse Transcriptase and Its Mutants to Inhibition by Azidothymidine Triphosphate

Author

Lawrence C. Kuo, Steven S. Carroll, Mark Stahlhut, David B. Olsen, Jules A. Shafer, and James Geib

Subjects

Molecular Sequence Data, Mutant, Biology, Antiviral Agents, Biochemistry, Substrate Specificity, chemistry.chemical_compound, Zidovudine, Thymidine Monophosphate, medicine, Thymine Nucleotides, DNA Primers, chemistry.chemical_classification, Thymidine monophosphate, Base Sequence, Hydrolysis, RNA-Directed DNA Polymerase, Templates, Genetic, Nucleotidyltransferase, Adenosine, HIV Reverse Transcriptase, Reverse transcriptase, Diphosphates, Enzyme, chemistry, Mutation, HIV-1, Mutagenesis, Site-Directed, Reverse Transcriptase Inhibitors, Primer (molecular biology), Dideoxynucleotides, medicine.drug

Abstract

HIV-1 reverse transcriptase can catalyze the addition of either azidothymidine monophosphate (AZTMP) or thymidine monophosphate (dTMP) to a primer strand opposite template adenosine bases. The ratio of incorporation of AZTMP to dTMP as catalyzed by HIV-1 reverse transcriptase has been determined to be 0.4 using an RNA-DNA duplex substrate prepared from oligonucleotides with sequences taken from the HIV-1 genome sequence. Slight variations are found for the incorporation ratio of the two nucleotides on other substrates. Substrates containing more than one adenosine in the single-stranded part of the template allow for more chances to incorporate AZTMP and less full-length product. Variations in the intensity of bands on an autoradiograph of a DNA sequencing gel corresponding to different positions of incorporation of AZTMP suggest that not all template adenosine positions offer the same level of discrimination against incorporation of AZTMP. A reverse transcriptase containing a set of four mutations (D67N, K70R, T215Y, K219Q) known to cause resistance to AZT in cell culture assays has a ratio of incorporation that is 0.77 +/- 0.03 times the ratio for the wild-type reverse transcriptase opposite one specific template adenosine. In contrast, a hybrid mutant containing the same four mutations that cause resistance to AZT and an additional mutation, Y181C, which by itself causes resistance to the non-nucleoside inhibitor L-697,661 [Sardana et al. (1992), J. Biol. Chem. 267, 17526-17530], has a ratio of incorporation that is 1.34 +/- 0.01 times that of the wild-type, indicating that the hybrid mutant enzyme is more susceptible to inhibition by AZTTP than the wild-type reverse transcriptase.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1994

16. Dissociation and association of the HIV-1 protease dimer subunits: Equilibria and rates

Author

Jules A. Shafer, Paul L. Darke, J A Zugay, Dawn L. Hall, Lawrence C. Kuo, and S P Jordan

Subjects

Time Factors, Macromolecular Substances, medicine.medical_treatment, Protein subunit, Dimer, Molecular Sequence Data, Biochemistry, Dissociation (chemistry), chemistry.chemical_compound, Reaction rate constant, HIV Protease, HIV-1 protease, medicine, Amino Acid Sequence, chemistry.chemical_classification, Protease, biology, Valine, HIV Protease Inhibitors, Hydrogen-Ion Concentration, Models, Theoretical, Pyrrolidinones, Dissociation constant, Kinetics, Crystallography, Enzyme, chemistry, HIV-1, biology.protein, Thermodynamics, Oligopeptides, Mathematics

Abstract

The kinetics and equilibrium properties were investigated for the interconversion between the active dimer of human immunodeficiency virus 1 (HIV-1) protease and its inactive monomeric subunits. The equilibrium dissociation constant (Kd) of the dimeric protease as well as the monomer association rate were obtained by monitoring the fluorescence change of an active-site-directed fluorescent probe (L-737244) upon its binding to the protease. The Kd of the HIV-1 protease is strongly pH dependent. At pH 5.5 where the enzyme is most active catalytically, the extrapolated values of Kd are 0.75 and 3.4 nM at 30 and 37 degrees C, respectively. The rate constant for HIV-1 monomer association, approximately 4 x 10(5) M-1 s-1, is within the range commonly observed for protein-protein interactions. Dimer dissociation was further scrutinized in the presence of an inactive, point mutant form of the enzyme. As a result of subunit exchange between the native and mutant enzymes and the formation of an inactive heterodimer, there was a time-dependent decrease in the activity of the native protease. Enzyme activity could be reinstated with the addition of an active-site-directed inhibitor (L-365862) which selectively binds active dimers. The rate of dimer dissociation was found to also decrease with pH. At pH 5.5 and 30 degrees C, the half-life for subunit dissociation is about 0.5 h. The slow dissociation, coupled with the high stability for dimer association, attests to the importance of allowing sufficient time for dimer-monomer equilibration in kinetic assays in order to avoid reaching erroneous conclusions in studies of dimer dissociation.

Published

1994

17. Identification of basic amino acid residues in thrombin essential for heparin-catalyzed inactivation by antithrombin III

Author

Jules A. Shafer, Yiping Li, S. D. Lewis, Zhong-Ru Gan, and Zhongguo Chen

Subjects

chemistry.chemical_classification, medicine.drug_class, Stereochemistry, Antithrombin, Anticoagulant, Cell Biology, Heparin, Biochemistry, Enzyme, Thrombin, Protein structure, chemistry, medicine, Structure–activity relationship, Molecular Biology, Ternary complex, circulatory and respiratory physiology, medicine.drug

Abstract

The therapeutically important anticoagulant heparin catalyzes inactivation of thrombin by antithrombin III via formation of an intermediary ternary thrombin-heparin-antithrombin III complex that is subsequently converted to a stable thrombin-antithrombin III complex with the release of heparin. Point mutations at Arg-180, Arg-245, Lys-248, and Lys-252 in thrombin markedly reduced the efficiency of heparin catalysis by decreasing the stability of the ternary intermediate, whereas the inactivation of thrombin by antithrombin alone was not affected by these mutations. These results together with an analysis of the x-ray crystal structure of thrombin yielded a model for the thrombin-heparin interaction, wherein heparin forms salt linkages along a groove in thrombin defined by Lys-252, Lys-248, Arg-245, Arg-89, Arg-98, and Arg-180.

Published

1994

18. Functional characterization of promoter elements involved in regulation of human B beta-fibrinogen expression. Evidence for binding of novel activator and repressor proteins

Author

Jules A. Shafer, A R Shaw, and G M Anderson

Subjects

Regulation of gene expression, Transcription (biology), Activator (genetics), Response element, Consensus sequence, Repressor, Cell Biology, Binding site, Biology, Molecular Biology, Biochemistry, Transcription factor, Molecular biology

Abstract

A high level of plasma fibrinogen has been shown to be an important risk factor for myocardial infarction and stroke. Thus, we were prompted to investigate regulation of human fibrinogen biosynthesis, a process wherein expression of the B beta-chain of fibrinogen appears to be rate-limiting for fibrinogen secretion. Using electrophoretic mobility shift assays with synthetic probes representing portions of the human B beta-fibrinogen promoter, we have defined several elements that bind distinct classes of transcription factors present in human hepatoma cell nuclear extracts. The contribution of each element to promoter activity was demonstrated in transfection experiments using promoter-chloramphenicol acetyltransferase constructs and human hepatoma cells. Our observations indicate that two distinct sequence elements are required for maximal induction of transcription by interleukin-6. One of these sequences is an IL-6-RE core element similar to that reported for the rat alpha 2-macroglobulin promoter and the other is a binding site for the C/EBP family of transcription factors. We also report two additional elements, one negative- and one positive-acting, that bind novel sequence-specific factors.

Published

1993

19. Isoprenoid diphosphate utilization by recombinant human farnesyl:protein transferase: Interactive binding between substrates and a preferred kinetic pathway

Author

Scott D. Mosser, Michael D. Schaber, Charles A. Omer, Jackson B. Gibbs, Jules A. Shafer, and David L. Pompliano

Subjects

Alkyl and Aryl Transferases, biology, Farnesyl Protein Transferase, Stereochemistry, Chemistry, Farnesyltransferase, Substrate (chemistry), Tritium, Biochemistry, Recombinant Proteins, Substrate Specificity, Kinetics, Geranylgeranylation, Polyisoprenyl Phosphates, Prenylation, Transferases, Escherichia coli, biology.protein, Humans, Transferase, Computer Simulation, Enzyme kinetics, Ternary complex

Abstract

The catalytic utilization of dimethylallyl, geranyl, farnesyl, and geranylgeranyl diphosphates in the reaction catalyzed by recombinant human farnesyl:protein transferase (hFPTase) has been examined in the presence of three different protein substrates, Ras-CVLS, Ras-CVIM, and Ras-CAIL. hFPTase catalyzed both farnesylation and geranylation of Ras-CVLS and of Ras-CVIM but not of Ras-CAIL. Geranylgeranylation was observed, but only when Ras-CVIM was the acceptor substrate. Steady-state initial velocity and dead-end inhibitor studies indicate that hFPTase-catalyzed geranylation, like bovine FPTase-catalyzed farnesylation, proceeds through a random order, sequential mechanism. Surprisingly, however, Michaelis constants for a given protein acceptor substrate varied depending upon which isoprenoid diphosphate was used as the donor substrate, showing that these substrates do not bind independently to the enzyme (under catalytic conditions). In addition, at very high concentrations of Ras-CVIM, substrate inhibition was observed in the presence of both FPP and GPP. Isotope partitioning studies showed that, at high concentrations of Ras-CVIM, more than 80% of the bound farnesyl diphosphate (FPP) can be trapped as product, suggesting that the binary complex is catalytically competent and that the ternary complex proceeds to product faster than it releases FPP. The release rate of FPP from the binary complex was calculated to be 0.05 s-1, which is only about eight times greater than kcat. Thus, the binding of FPP to the enzyme in the presence of the protein substrate is not an equilibrium situation.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1993

20. Inhibition of thrombin and other trypsin-like serine proteinases by cyclotheonamide A

Author

S. D. Lewis, John J. Baldwin, Nobuhiro Fusetani, Adel M. Naylor, Jules A. Shafer, and Assunta S. Ng

Subjects

Models, Molecular, Serine Proteinase Inhibitors, Plasmin, Thrombin time, Models, Biological, Peptides, Cyclic, chemistry.chemical_compound, Thrombin, medicine, Humans, Fibrinolysin, Blood coagulation test, Binding Sites, Molecular Structure, medicine.diagnostic_test, Chemistry, Factor X, Hematology, Trypsin, Kinetics, Clotting time, Biochemistry, Tissue Plasminogen Activator, Blood Coagulation Tests, Trypsin Inhibitors, Plasminogen activator, Factor Xa Inhibitors, Protein Binding, circulatory and respiratory physiology, medicine.drug

Abstract

Cyclotheonamide A (CA), a cyclic peptide isolated from the marine sponge of the genus Theonella was shown to be a slow-binding inhibitor of several trypsin-like serine proteinases. Values of 4.6 x 10(4), 4.8 x 10(4), 9.3 x 10(3), 2.1 x 10(3) and 2.7 x 10(2) M-1 s-1 were determined for the second-order rate constants for formation of CA complexes with thrombin, trypsin, plasmin, 2-chain t-PA and factor Xa, respectively. The equilibrium constant (Ki) was measured for dissociation of CA from the CA complex with human thrombin (Ki = 1.0 nM), bovine trypsin (Ki = 0.2 nM), human plasmin (Ki = 12 nM), human factor Xa (Ki = 50 nM) and human 2-chain tissue plasminogen activator (t-PA) (Ki = 40 nM). CA produces dose dependent increases in clotting time assays. The clotting time in the thrombin time, activated partial thromboplastin time and prothrombin time assays, were doubled by 1.5, 0.9 and 48 microM CA, respectively. A model for the binding of CA to the active site of thrombin is proposed.

Published

1993

21. α-Thrombin within fibrin clots: Inactivation of thrombin by antithrombin-III

Author

Jules A. Shafer and Michael C. Naski

Subjects

medicine.medical_treatment, Antithrombin III, Fibrinogen, Fibrin, Thrombin, Fibrinolysis, medicine, Humans, Blood Coagulation, chemistry.chemical_classification, Binding Sites, biology, Antithrombin, Hematology, Thrombolysis, Molecular biology, α thrombin, Enzyme, Biochemistry, chemistry, biology.protein, circulatory and respiratory physiology, medicine.drug

Abstract

To demonstrate that human alpha-thrombin is effectively inactivated by human antithrombin III (AT) during the production of a fibrin clot we measured the amount of alpha-thrombin activity which can be recovered from a clot generated from purified human proteins. We discovered that 0.05-0.07% of the original alpha-thrombin activity is recovered from a fibrin clot produced from a reaction mixture where the initial concentrations of AT and alpha-thrombin were chosen at a ratio (17.5) to allow complete conversion of fibrinogen to fibrin. These results indicated that alpha-thrombin is successfully inactivated by AT during the production of a fibrin clot. Further, when an amount of alpha-thrombin equal to that recovered from a fibrin clot is introduced into a solution of fibrinogen and AT identical to that utilized to produce the clot only 4% of the fibrinogen is converted to fibrin. These results suggest that i) when a fibrin clot is dissolved during fibrinolytic therapy little active alpha-thrombin should be released from the clot and ii) this amount of thrombin is insufficient to catalyze rethrombosis without proposing de novo production of thrombin. The action on factors XI, VIII, and V of the small amount of thrombin released upon thrombolysis, however, may provide the stimulus for de novo production of sufficient thrombin to catalyze rethrombosis.

Published

1993

22. Inhibition of HIV-1 reverse transcriptase by pyridinone derivatives. Potency, binding characteristics, and effect of template sequence

Author

Jules A. Shafer, A M Stern, C D Bennett, L Gotlib, Jon H. Condra, David B. Olsen, S S Carroll, Lawrence C. Kuo, and Donald J. Graham

Subjects

chemistry.chemical_classification, Stereochemistry, Protein primary structure, Nucleic acid sequence, RNA, Cell Biology, Biology, Biochemistry, Reverse transcriptase, Enzyme, chemistry, Structure–activity relationship, Nucleotide, Primer (molecular biology), Molecular Biology

Abstract

The inhibition of human immunodeficiency virus type 1 (HIV-1) reverse transcriptase by pyridinone compounds has been investigated using as templates synthetic RNA with sequences based on the HIV-1 genome sequence. In reactions catalyzed by the enzyme that incorporated more than one nucleotide per primer, inhibition by a representative pyridinone inhibitor, 3-[2-(1,3-benzoxazol-2-yl)ethyl]-5-ethyl-6-methyl-pyridin-2(1H)one (L-696,229), was noncompetitive against deoxynucleotide triphosphate. For reactions that incorporated one deoxynucleotide per primer, IC50 values ranged from 20 to 200 nM, depending on the position of incorporation of the incoming deoxynucleotide base on the template. Inhibition of synthesis on a set of four templates differing only at the template base complementary to the incoming nucleotide had similar IC50 values. These results demonstrate that inhibitory potency is dependent on the primary structure of the template and that inhibitory potency is largely independent of the identity of the incoming nucleotide base. The inhibition of HIV-1 reverse transcription by L-696,229 also displayed slow-binding characteristics. The slow-binding aspect was exploited to gauge the interaction between inhibitor and enzyme. By titrating the reduction in the extent of the burst of synthesis observed in a reaction incorporating dideoxythymidine monophosphate into poly(rA)-oligo(dT)18, the apparent equilibrium constant for dissociation of the reverse transcriptase-L-696,229 complex was estimated to be 400 nM.

Published

1993

23. The reversible and irreversible autophosphorylations of insulin receptor kinase

Author

Jules A. Shafer and Lawrence S. Argetsinger

Subjects

inorganic chemicals, Kinase, Insulin, medicine.medical_treatment, Autophosphorylation, macromolecular substances, Cell Biology, Biology, environment and public health, Biochemistry, Dephosphorylation, enzymes and coenzymes (carbohydrates), A-site, Insulin receptor, Insulin receptor substrate, medicine, biology.protein, bacteria, Phosphorylation, Molecular Biology

Abstract

When the catalytically active, tyrosyl-phosphorylated form of insulin receptor was isolated from human placenta and treated with ADP, only partial dephosphorylation was observed. This observation suggests the existence of two distinct classes of phosphotyrosyl residues of the phosphorylated insulin receptor: one in which the phosphoryl groups undergo reversible transfer to ADP and one in which they do not. There were 8.8 +/- 2.2 phosphorylation sites per tetrameric insulin receptor, of which 2.4 +/- 0.5 were irreversible (mean +/- S.D., n = 6). The reversible sites were determined to be equivalent and noninteracting and to have an equilibrium constant for the transfer of a phosphoryl group from ATP to a site of reversible phosphorylation of 8.7. Surprisingly, both phosphorylation and dephosphorylation at the reversible sites were relatively insensitive to the presence of insulin. Since only minimal autophosphorylation of insulin receptor was detected in the absence of insulin, the results suggest that the incorporation of phosphate into the two to three irreversible phosphorylation sites is insulin dependent. Phosphorylation of the irreversible phosphorylation sites then renders the insulin receptor relatively insensitive to the continued presence of insulin and facilitates rapid reversible phosphorylation of a second group of tyrosyl residues. The dependence of the degree of phosphorylation of insulin receptor on the ATP:ADP ratio may provide a mechanism for modulating the cellular response to insulin.

Published

1992

24. Reaction pathway for inhibition of blood coagulation factor Xa by tick anticoagulant peptide

Author

Shi-Shan Mao, Sidney D. Lewis, Susan P. Jordan, and Jules A. Shafer

Subjects

medicine.medical_specialty, Serine Proteinase Inhibitors, medicine.drug_mechanism_of_action, Stereochemistry, Factor Xa Inhibitor, Peptide, Plasma protein binding, In Vitro Techniques, Biology, Biochemistry, Arthropod Proteins, Ticks, Reaction rate constant, Internal medicine, medicine, Animals, Humans, Binding site, Fluorescent Dyes, chemistry.chemical_classification, Binding Sites, Thrombin, Active site, Hirudins, Recombinant Proteins, Benzamidines, Dissociation constant, Kinetics, A-site, Endocrinology, chemistry, Factor Xa, biology.protein, Intercellular Signaling Peptides and Proteins, Peptides, Factor Xa Inhibitors, Protein Binding

Abstract

The reaction pathway for inhibition of human factor Xa (fXa) by recombinant tick anticoagulant peptide (rTAP) was studied by stopped-flow fluorometry. In the presence of the fluorogenic substrate N-tert-butyloxycarbonyl-L-isoleucyl-L-glutamylglycyl-L-arginyl-7-amido-4 - methylcoumarin (B-IEGR-AMC) and under pseudo-first-order conditions, inhibition appears to occur via a two-step process. Initially, a weak enzyme-inhibitor complex forms with a dissociation constant (Ki) of 68 +/- 6 microM. The initial complex then rearranges to a more stable fXa-rTAP complex with a rate constant (k2) of 123 +/- 5 s-1. The apparent second-order rate constant (k2/Ki) describing formation of the stable complex is (1.8 +/- 0.2) x 10(6) M-1 s-1. Studies of the reaction of rTAP with fXa in the presence of the fluorescent active-site probe p-amino-benzamidine (P) revealed a reaction pathway wherein rTAP initially binds to the fXa-P complex in a two-step process prior to displacing P from the active site. These results indicate that rTAP can bind fXa via a site distinct from the active site (an exosite). The subsequent displacement of P from the active site of fXa by rTAP exhibits a dependence on the concentration of P, indicating that rTAP is locked into the active site in a third step.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1992

25. Stimulation by growth hormone (GH) of GH receptor-associated tyrosine kinase activity

Author

Susan E. Stred, Christin Carter-Su, J. R. Stubbart, F Talamantes, Lawrence S. Argetsinger, W C Smith, and Jules A. Shafer

Subjects

inorganic chemicals, medicine.medical_specialty, Blotting, Western, Growth hormone receptor, Biology, environment and public health, Mice, Endocrinology, Internal medicine, medicine, Animals, Phosphorylation, Receptor, Cells, Cultured, Kinase, Phosphorus, Receptors, Somatotropin, Fibroblasts, Protein-Tyrosine Kinases, Precipitin Tests, In vitro, enzymes and coenzymes (carbohydrates), Cell culture, Growth Hormone, Autoradiography, Electrophoresis, Polyacrylamide Gel, Signal transduction, Phosphorus Radioisotopes, Tyrosine kinase, hormones, hormone substitutes, and hormone antagonists, Signal Transduction

Abstract

We have shown previously that GH receptors (GHRs) become phosphorylated on tyrosyl residues when GH-responsive cells are exposed to GH. In this work we investigate the molecular mechanism by which GH binding stimulates tyrosyl phosphorylation of GHR. To test whether in the presence of GH, GHR and the tyrosine kinase responsible for GHR phosphorylation are tightly associated in a complex or form a transient enzyme-substrate complex, the rate of in vitro phosphorylation of GHR was determined as a function of receptor concentration. GH-GHR complexes were purified from 3T3-F442A fibroblasts by immunoadsorption to and elution from immobilized phosphotyrosyl-binding antibody. The rate of in vitro tyrosyl phosphorylation of GH-GHR complexes was not substantially reduced when the GHR preparation was diluted 1:10 or 1:100 before phosphorylation, consistent with a tight association between kinase and substrate (GHR). When cells were labeled metabolically with 35S, and GHRs containing phosphorylated tyrosyl residues were isolated by immunoadsorption to and elution from phosphotyrosyl-binding antibody, the ability to immunoprecipitate 35S-labeled GHR with GHR antibodies was only evident when the cells had been incubated with GH. This indicates that in vivo, GHRs are phosphorylated on tyrosyl residues only when GH is bound. Additionally, when anti-GHR antibodies were used to immunoprecipitate GHR from solubilized cells, only GHRs isolated from GH-treated cells were phosphorylated when subjected to an in vitro kinase assay. The increased tyrosyl phosphorylation of GHR detected after incubation of cells with GH is consistent either with GH increasing tyrosine kinase activity associated with the GHR or with GH inducing a conformational change in GHR that renders it susceptible to tyrosyl phosphorylation. To discern whether GH binding increased GHR-associated kinase activity, we tested the ability of anti-GHR antibody immunoprecipitates to phosphorylate the synthetic substrate poly(Glu4,Tyr). GH treatment of cells resulted in a 2-fold increase in the rate of phosphorylation of poly(Glu4,Tyr). The increase in kinase activity was dose dependent, with half-maximal stimulation between 15-20 ng/ml GH. These results provide strong evidence that GH actually increases tyrosine kinase activity associated with the GHR. This would be consistent with GH-dependent complex formation between a constitutively activated kinase and GHR and/or activation of a constitutively associated or intrinsic kinase.

Published

1992

26. Reconstitution of catalytically competent human .zeta.-thrombin by combination of .zeta.-thrombin residues A1-36 and B1-148 and an Escherichia coli expressed polypeptide corresponding to .zeta.-thrombin residues B149-259

Author

Sidney D. Lewis, Jules A. Shafer, Zhong Ru Gan, and James R. Stone

Subjects

Recombinant Fusion Proteins, Protein subunit, Genetic Vectors, Molecular Sequence Data, Biology, medicine.disease_cause, Biochemistry, Catalysis, law.invention, Thrombin, Bacterial Proteins, law, Operon, Escherichia coli, medicine, Humans, Amino Acid Sequence, Cloning, Molecular, Promoter Regions, Genetic, Polyacrylamide gel electrophoresis, Chromatography, High Pressure Liquid, Expression vector, Base Sequence, DNA, Fusion protein, Electrophoresis, Recombinant DNA, Electrophoresis, Polyacrylamide Gel, Oxidation-Reduction, circulatory and respiratory physiology, medicine.drug

Abstract

Human zeta-thrombin, a catalytically competent serine proteinase, arises from a single chymotryptic cleavage at Trp-148 in alpha-thrombin to generate two nonconvalently associated polypeptide segments designated zeta 1-thrombin (the 36-residue A-chain disulfide linked to B-chain residues B1-148) and zeta 2-thrombin (B149-259). We report here the expression of recombinant zeta 2-thrombin in Escherichia coli and the reconstitution of catalytically competent zeta-thrombin by combination of zeta 1-thrombin with recombinant zeta 2-thrombin. A DNA fragment encoding zeta 2-thrombin was cloned into a pATH2 expression vector as a trpE-zeta 2 fusion gene, in which a factor Xa cleavage site was inserted between the trpE and the zeta 2-thrombin gene. High-level expression of this fusion protein was achieved under the control of the E. coli trp promoter. The expressed zeta 2-thrombin was liberated from the fusion protein by factor Xa cleavage, reduced with DTT, and purified to homogeneity by reverse-phase HPLC. Oxidation of the reduced zeta 2-thrombin in the presence of 80 microM CuSO4 and 6 M urea at pH 8.15 yielded material that was indistinguishable on HPLC from zeta 2-thrombin isolated by resolution of human zeta-thrombin. Catalytically active zeta-thrombin was generated by combination of recombinant zeta 2-thrombin with zeta 1-thrombin that was isolated by resolution of human zeta-thrombin. Recombinant zeta-thrombin displayed catalytic activities, toward a small chromogenic substrate and fibrinogen, that were similar to those of alpha-thrombin prepared from human blood plasma and zeta-thrombin obtained by treatment of alpha-thrombin with chymotrypsin.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991

27. Determining the extent of labeling for tetramethylrhodamine protein conjugates

Author

David L. Meadows, Jerome S. Schultz, and Jules S. Shafer

Subjects

Chromatography, Eosin, biology, Rhodamines, Immunology, Lysine, Succinimides, Chromophore, Fluorescence, Rhodamine, chemistry.chemical_compound, chemistry, Spectrophotometry, Concanavalin A, biology.protein, Eosine Yellowish-(YS), Immunology and Allergy, Guanidine, Fluorescent Dyes, Protein Binding, Conjugate

Abstract

A new, relatively simple, spectrophotometric technique has been developed which is useful for accurately determining the extent of chromophore labeling of proteins. Often the absorbance spectra and extinction coefficients of dye/protein conjugates are strongly affected by changes in the chromophore microenvironment that may occur at high dye/protein ratios. In the method being presented, the microenvironment effects have been significantly reduced by denaturing the dye/protein complex in 6 M guanidine hydrochloride prior to making the necessary spectrophotometric measurements. With this approach, extinction coefficients were obtained under native and denatured conditions for tetramethylrhodamine isothiocyanate (TRITC) when bound to a model protein receptor, the sugar binding protein concanavalin A (ConA). The extinction coefficients used for TRITC/ConA conjugates under native and denaturing conditions were 6.52 × 10 4 M −1 cm −1 and 6.96 × 10 4 M −1 cm −1 , respectively. These values were obtained from a model dye complex formed between TRITC and ϵ -amino- n -caproic acid which closely resembles the sidechain of lysine residues. Additional dye/ConA conjugates were prepared with tetramethylrhodamine succinimidyl ester (RHS) and eosin isothiocyanate (EITC), and the effects of microenvironment changes on these conjugates were examined. Extinction coefficients for these dyes in native and denaturing conditions, as a function of the degree of labeling, were not appreciably different indicating that changes in the microenvironment did not have a significant affect on the spectral properties of these two dyes. In summary, with this new approach it is quite easy to accurately determine the dye/protein ratio for TRITC conjugates. Also, it is expected that RHS would be a better dye than TRITC for protein conjugation because more accurate values for dye/protein ratios can be obtained under native conditions.

Published

1991

28. A kinetic model for the alpha-thrombin-catalyzed conversion of plasma levels of fibrinogen to fibrin in the presence of antithrombin III

Author

Jules A. Shafer and M.C. Naski

Subjects

chemistry.chemical_classification, biology, Chemistry, Antithrombin, Cell Biology, Fibrinogen, Biochemistry, Fibrin, Enzyme, Thrombin, Enzyme inhibitor, Blood plasma, biology.protein, medicine, Fibrinopeptide, Molecular Biology, circulatory and respiratory physiology, medicine.drug

Abstract

In this study we report a kinetic model for the alpha-thrombin-catalyzed production of fibrin I and fibrin II at pH 7.4, 37 degrees C, gamma/2 0.17. The fibrin is produced by the action of human alpha-thrombin on plasma levels of human fibrinogen in the presence of the major inhibitor of alpha-thrombin in plasma, antithrombin III (AT). This model quantitatively accounts for the time dependence of alpha-thrombin-catalyzed release of fibrinopeptides A and B concurrent with the inactivation of alpha-thrombin by AT and delineates the concerted interactions of alpha-thrombin, fibrin(ogen), and AT during the production of a fibrin clot. The model also provides a method for estimating the concentration of alpha-thrombin required to produce a clot of known composition and predicts a direct relationship between the plasma concentration of fibrinogen and the amount of fibrin produced by a bolus of alpha-thrombin. The predicted relationship between the concentration of fibrinogen and the amount of fibrin produced in plasma provides a plausible explanation for the observed linkage between plasma concentrations of fibrinogen and the risk for ischemic heart disease.

Published

1991

29. Role of calcium ion in the generation of factor XIII activity

Author

Thomas J. Hornyak and Jules A. Shafer

Subjects

Models, Molecular, chemistry.chemical_element, Alpha (ethology), Calcium, Fibrinogen, Biochemistry, Medicinal chemistry, Iodoacetamide, Reaction rate constant, Allosteric Regulation, Zymogen, medicine, Humans, Sulfhydryl Compounds, Beta (finance), Blood Coagulation, Binding Sites, Factor XIII, Thrombin, Biological activity, Platelet Activation, Kinetics, chemistry, Factor XIIIa, medicine.drug

Abstract

The involvement of calcium ion in the activation of both plasma factor XIII (alpha 2 beta 2) and platelet factor XIII (alpha 2) was investigated. The second-order dependence of the rate constant for exposure of the active-site thiol group of alpha-thrombin-cleaved plasma factor XIII (alpha 2'beta 2) on the concentration of calcium ion suggested that the binding of two calcium ions is required for transformation of the alpha 2'beta 2 tetramer to enzymatically active factor XIIIa. Fibrinogen, previously reported to lower the calcium ion concentration required for efficient activation of alpha 2'beta 2 [Credo, R. B., Curtis, C. G., & Lorand, L. (1978) Proc. Natl. Acad. Sci. U.S.A. 75, 4234-4237], was found in the present study to increase the rate of exposure of the active-site thiol group. Whereas calcium ion is required for exposure of the active-site thiol group in cleaved plasma factor XIII (alpha 2'beta 2), exposure of an active-site thiol group in cleaved platelet factor XIII (alpha 2') occurs in the absence of calcium ion. The rate constant (2.2 x 10(5) M-1 s-1) for alpha-thrombin-catalyed exposure of the active-site thiol group of platelet factor XIII zymogen (alpha 2) in the presence of calcium ion was greater than the rate constant (0.7 x 10(5) M-1 s-1) determined in the absence of calcium ion.(ABSTRACT TRUNCATED AT 250 WORDS)

Published

1991

30. GTPase-activating protein interactions with the viral and cellular Src kinases

Author

Jules A. Shafer, Richard Jove, Stuart J. Decker, Jackson B. Gibbs, and Barbara K. Brott

Subjects

GTPase-activating protein, Immunoblotting, Proto-Oncogene Proteins pp60(c-src), Antigen-Antibody Complex, Chick Embryo, Biology, SH3 domain, Cell Line, Animals, Phosphorylation, Multidisciplinary, Tyrosine-protein kinase CSK, Kinase, GTPase-Activating Proteins, Proteins, Fibroblasts, Protein-Tyrosine Kinases, Molecular biology, Rats, Cell Transformation, Neoplastic, Avian Sarcoma Viruses, ras GTPase-Activating Proteins, Signal transduction, Protein Kinases, Tyrosine kinase, Research Article, Proto-oncogene tyrosine-protein kinase Src

Abstract

GTPase-activating protein (GAP), which regulates the activities of Ras proteins, is implicated in mitogenic signal transduction by growth-factor receptors and oncoproteins with tyrosine kinase activity. Oncogenic viral Src (p60v-src) encoded in Rous sarcoma virus possesses elevated tyrosine kinase activity compared with its nononcogenic normal homolog, cellular Src (p60c-src). To examine molecular interactions between GAP and the two Src kinases, immunoprecipitates of Src or GAP prepared from cell lystates were resolved by gel electrophoresis and analyzed by an immunoblot procedure with antibodies to GAP or Src used as probes. Results suggest that p60c-src is associated with a complex containing GAP in immunoprecipitates from lysates of normal rat and chicken cells. However, GAP is not phosphorylated in p60c-src immunoprecipitates subjected to in vitro kinase reactions. By contrast, GAP undergoes tyrosyl phosphorylation in vitro when immunoprecipitates of p60v-src prepared from transformed cell lysates are incubated with ATP. Our findings suggest that p60v-src and p60c-src associate with complexes containing GAP and provide a biochemical link between both kinases and GAP/Ras signal transduction pathways. These results are consistent with the hypothesis that GAP has a role in mediating normal functions of p60c-src as well as oncogenic activities of p60v-src.

Published

1991

31. Characterization of the kinetic pathway for fibrin promotion of .alpha.-thrombin-catalyzed activation of plasma factor XIII

Author

Laszlo Lorand, Michael C. Naski, and Jules A. Shafer

Subjects

Protein Conformation, Fibrinopeptide B, Fibrinogen, Binding, Competitive, Biochemistry, Fibrin, medicine, Humans, Enzyme kinetics, Binding site, Ternary complex, biology, Chemistry, Hydrolysis, Thrombin, Active site, Hirudins, Factor XIII, Peptide Fragments, Kinetics, biology.protein, Biophysics, Intercellular Signaling Peptides and Proteins, Thermodynamics, Peptides, medicine.drug

Abstract

Kinetic and thermodynamic studies are presented showing that the cofactor activity of fibrin I (polymerized des-A fibrinogen) in the alpha-thrombin-catalyzed proteolysis of activation peptide (AP) from plasma factor XIII can be attributed to formation of a fibrin I-plasma factor XIII complex (Kd = 65 nM), which is processed by alpha-thrombin more efficiently (kcat/Km = 1.2 x 10(7) M-1 s-1) than free, uncomplexed plasma factor XIII (kcat/Km = 1.4 x 10(5) M-1 s-1). The increase in the specificity constant (kcat/Km) is shown to be largely due to an increase in the apparent affinity of alpha-thrombin for the complex of plasma factor XIII and fibrin I, as reflected by the 30-fold decrease in the Michaelis constant observed for fibrin I bound plasma factor XIII relative to that for uncomplexed plasma factor XIII. Analysis of the initial rates of alpha-thrombin-catalyzed hydrolysis of fibrinopeptide B (FPB) from fibrin I polymer in the presence of plasma factor XIII indicated that alpha-thrombin bound to fibrin I in the ternary complex of alpha-thrombin, plasma factor XIII, and fibrin I polymer is competent to catalyze cleavage of both FPB from fibrin I and AP from plasma factor XIII. This observation is consistent with the view that alpha-thrombin within the ternary complex is anchored to fibrin I polymer through a binding site distinct from the active site (an exosite) and that the active site is alternatively complexed with the AP moiety of plasma factor XIII or the FPB moiety of fibrin I. This conclusion is supported by the observation that a 12-residue peptide, which binds to an exosite of alpha-thrombin and blocks the interaction of alpha-thrombin with fibrinogen and fibrin, competitively inhibits alpha-thrombin-catalyzed release of both FPB and AP from the fibrin I-plasma factor XIII complex.

Published

1991

32. Disruption of active site interactions with pyridoxal 5'-phosphate and substrates by conservative replacements in the glycine-rich loop of Escherichia coli D-serine dehydratase

Author

Christopher L. Kojiro, M Marceau, S D Lewis, Jules A. Shafer, and K Mountjoy

Subjects

Alanine, chemistry.chemical_classification, biology, Stereochemistry, Wild type, Active site, Cell Biology, Biochemistry, Amino acid, chemistry.chemical_compound, chemistry, Dehydratase, Glycine, biology.protein, Pyridoxal phosphate, Molecular Biology, Pyridoxal

Abstract

We have used site-directed mutagenesis to examine the function of three putative active site residues (C278, G279, and G281) of the vitamin B6 enzyme D-serine dehydratase. These residues lie in or adjacent to a conserved glycine-rich loop that is known to interact with the pyridoxal 5'-phosphate cofactor in several B6 enzymes and that resembles the GXGXXG loop of nucleotide-binding sites. The cofactor affinity, catalytic properties, and spectral properties (UV, CD, fluorescence, and 31P NMR) of alanine variants C278A, G279A, and G281A were measured as well as the susceptibility of each variant to thiol modification by 5,5'-dithiobis(2-nitrobenzoic acid). The specific thiols modified in each variant and wild type D-serine dehydratase were identified by amino acid sequencing of labeled tryptic peptides. C278A, G279A, and G281A displayed 10-, 33-, and 22-fold lower affinities for pyridoxal 5'-phosphate than did wild type D-serine dehydratase and turnover numbers with D-serine that were 50, 6, and 60% of normal, respectively. The introduction of a methyl side chain into G281 enhanced catalytic efficiency with the substrates D-threonine, D-allo-threonine, and L-serine, whereas the methyl side chain at position 279 impaired catalysis of all substrates as well as cofactor affinity. The 31P NMR spectrum of D-serine dehydratase was minimally perturbed by the alanine substitutions, consistent with the view that neither G279 nor G281 interacts with the phosphate group of the cofactor (in contrast to the arrangement found in several other B6 enzymes). C311 was the single thiol modified by 5,5'-dithiobis(2-nitrobenzoic acid) in wild type D-serine dehydratase. Two normally inaccessible thiol groups, C233 and C278, were rendered susceptible to modification as a consequence of either G----A substitution, and modification of C278 was associated with inactivation of G279A and G281A. These observations suggest that small perturbations in the glycine-rich loop induce conformational changes spanning a considerable area around the active site.

Published

1990

33. The COOH-terminal domain of hirudin. An exosite-directed competitive inhibitor of the action of alpha-thrombin on fibrinogen

Author

J.W. Fenton nd, J.M. Maraganore, Jules A. Shafer, M.C. Naski, and Steven T. Olson

Subjects

biology, Chemistry, Antithrombin, Hirudin, Active site, Cell Biology, Fibrinogen, Biochemistry, Fibrin, Thrombin, Non-competitive inhibition, Enzyme inhibitor, biology.protein, medicine, Molecular Biology, circulatory and respiratory physiology, medicine.drug

Abstract

Hirudin, a potent 65-residue polypeptide inhibitor of alpha-thrombin found in the saliva of the leech Hirudo medicinalis, and fragments thereof are potentially useful as antithrombotic agents. Hirugen, the synthetic N-acetylated COOH-terminal dodecapeptide (Ac-Asn-Gly-Asp-Phe-Glu-Glu-Ile-Pro-Glu-Glu-Tyr(SO3)-Leu) of hirudin was shown in the present study to behave as a pure competitive inhibitor (Ki = 0.54 microM) of human alpha-thrombin-catalyzed release of fibrinopeptide A from human fibrinogen. In contrast to this inhibitory activity, hirugen slightly enhanced (increased kcat/Km 1.6-fold) alpha-thrombin-catalyzed hydrolysis of the fluorogenic tripeptide substrate N-p-Tosyl-Gly-Pro-Arg-7-amino-4-methylcoumarin. These observations indicate that hirugen binds to alpha-thrombin at an exosite distinct from the active site, and that interaction with this exosite is a major determinant of the competence of alpha-thrombin to bind fibrinogen. Consistent with this view, hirugen blocked binding of fibrin II to alpha-thrombin. Studies of the effect of hirugen on the rate of inactivation of alpha-thrombin by antithrombin III (AT), the major plasma inhibitor of alpha-thrombin, indicated that binding of hirugen to alpha-thrombin results in less than a 2.5-fold decrease in the rate of inactivation of alpha-thrombin by AT, both in the absence and presence of heparin. This behavior is distinct from that of active site-directed competitive inhibitors of alpha-thrombin which bind to alpha-thrombin and block both conversion of fibrinogen to fibrin and inactivation of alpha-thrombin by AT. Hirugen, an exosite-directed competitive inhibitor, blocks the interaction of alpha-thrombin with fibrinogen while leaving alpha-thrombin competent to react with AT. Thus, unlike active site-directed competitive inhibitors, hirugen should act in concert with AT and heparin to reduce the amount of fibrinogen that is processed during the lifetime of alpha-thrombin in plasma.

Published

1990

34. Isolation of a catalytically competent phosphorylated tyrosine kinase from Rous sarcoma virus-induced rat tumor by immunoadsorption to and hapten elution from phosphotyrosine binding antibodies

Author

Lawrence S. Argetsinger, Susan Whitehouse-Hills, and Jules A. Shafer

Subjects

Sarcoma, Avian, inorganic chemicals, Phosphotyrosine binding, viruses, Biophysics, Histone kinase activity, environment and public health, Biochemistry, Antibodies, Oncogene Protein pp60(v-src), Histones, Structural Biology, Animals, Phosphorylation, Phosphotyrosine, Immunoadsorption, Molecular Biology, Immunosorbent Techniques, Antiserum, Rous sarcoma virus, biology, Neoplasms, Experimental, Protein-Tyrosine Kinases, respiratory system, biology.organism_classification, Rats, Inbred F344, Rats, enzymes and coenzymes (carbohydrates), Avian Sarcoma Viruses, Tyrosine, Haptens, Tyrosine kinase, Hapten

Abstract

A procedure has been developed for the isolation of a catalytically competent phosphorylated tyrosine kinase (RSV Y-kinase) from avian sarcoma virus-induced rat tumors. The procedure involves reaction of partially purified RSV Y-kinase with ATP to effect tyrosyl phosphorylation of catalytically competent RSV Y-kinase. Tyrosyl phosphorylated RSV Y-kinase was isolated from the heterogeneous reaction mixture by immunoadsorption on immobilized phosphotyrosyl binding antibodies and elution with the hapten p-nitrophenyl phosphate. Estimation of the phosphate content of the purified phosphorylated RSV Y-kinase indicated that 1-3 tyrosyl groups had been phosphorylated upon reaction with ATP. The specific activity toward histone 2B of the purified phosphorylated RSV Y-kinase was at least 30-fold greater than that estimated for the RSV Y-kinase prepared previously by immunoadsorption on immobilized antiserum from tumor bearing rabbits.

Published

1990

35. Alpha-thrombin-catalyzed hydrolysis of fibrin I. Alternative binding modes and the accessibility of the active site in fibrin I-bound alpha-thrombin

Author

M.C. Naski and Jules A. Shafer

Subjects

biology, Chemistry, Stereochemistry, Antithrombin, Substrate (chemistry), Active site, Cell Biology, Fibrinogen, Biochemistry, Fibrin, Reaction rate constant, Non-competitive inhibition, medicine, biology.protein, Enzyme kinetics, Molecular Biology, circulatory and respiratory physiology, medicine.drug

Abstract

Steady-state kinetic parameters were determined for the action of human alpha-thrombin on human fibrin I polymer, an intermediate in the alpha-thrombin-catalyzed conversion of fibrinogen to the fibrin matrix of blood clots during the terminal phase of the blood clotting cascade. Values of 49 s-1 and 7.5 microM were determined (at 37 degrees C, pH 7.4, gamma/2 0.17) for kcat and Km, respectively. Studies of the effect of fibrin I on alpha-thrombin-catalyzed hydrolysis of the fluorogenic substrate N-p-Tos-Gly-L-Pro-L-Arg-7-amido-4-methylcoumarin (tos-GPR-amc) and the effect of fibrin I on the reaction of alpha-thrombin with antithrombin III (AT) were presented which indicate that the active site of alpha-thrombin is accessible while it is bound to its substrate fibrin I. Fibrin I inhibited alpha-thrombin-catalyzed hydrolysis of tos-GPR-amc in a manner inconsistent with the pure competitive inhibition expected for an alternative substrate, whereas fibrinogen, an alpha-thrombin substrate, behaved as a pure competitive inhibitor of the alpha-thrombin-catalyzed hydrolysis of tos-GPR-amc. The effect of fibrin I on alpha-thrombin-catalyzed hydrolysis of tos-GPR-amc was shown to be consistent with alpha-thrombin binding to fibrin I in alternative orientations. In one orientation both the active site and a site distinct from the active site (an exosite) of alpha-thrombin are occupied by fibrin I. In the other orientation only the exosite of alpha-thrombin is occupied and the active site is freely accessible to other substrates. The values of both kcat (21 s-1) and Km (less than 0.23 microM) determined for fibrin I-bound alpha-thrombin acting on tos-GPR-amc were decreased relative to the values of kcat (180 s-1) and Km (7.3 microM) observed for the action of uncomplexed alpha-thrombin on tos-GPR-amc. This observation suggests that the active site of alpha-thrombin is altered in fibrin I-bound alpha-thrombin. Studies of the effect of fibrin I on the reaction of AT with alpha-thrombin (at 37 degrees C, pH 7.4, gamma/2 0.17) indicated that when alpha-thrombin is bound to fibrin I in an orientation where the active site of alpha-thrombin is accessible, AT reacts with alpha-thrombin with a rate constant (greater than 4.2 x 10(4) M-1 s-1) that is greater than the rate constant (1.5 x 10(4) M-1 s-1) for reaction of AT with the free enzyme.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1990

36. Discovery of a novel, selective, and orally bioavailable class of thrombin inhibitors incorporating aminopyridyl moieties at the P1 position

Author

Dong-Mei Feng, Roger M. Freidinger, S. Dale Lewis, Stephen J. Gardell, Mark G. Bock, Zhonggo Chen, Adel Naylor-Olsen, Richard Woltmann, Elizabeth P. Baskin, Joseph J. Lynch, Robert Lucas, Jules A. Shafer, Kimberley B. Dancheck, I-Wu Chen, and Joseph P. Vacca

Published

2005

37. Photoactivated, Active-Site-Directed γ-Secretase Inhibitors Covalently Label Presenilin 1

Author

Stephen J. Gardell, Yue-Ming Li, Min Xu, Ming-Tain Lai, Qian Huang, Jose L. Castro, Jillian DiMuzio-Mower, Timothy Harrison, Colin Lellis, Alan Nadin, Joseph G. Neduvelil, R. Bruce Register, Mohinder K. Sardana, Mark S. Shearman, Xiao-Ping Shi, Adrian L. Smith, Kuo-Chang Yin, and Jules A. Shafer

Published

2003

38. The pro domain of beta-secretase does not confer strict zymogen-like properties but does assist proper folding of the protease domain

Author

Kuo-Chang Yin, Theresa Wood, Sang Na, Jules A. Shafer, Xiao-Ping Shi, Ming-Tain Lai, R. Bruce Register, Michael Platchek, Victor M. Garsky, Mohinder K. Sardana, Yue-Ming Li, Stephen J. Gardell, Elizabeth Chen, James Thiebeau, and Mei-Jy Tang

Subjects

Protein Denaturation, Protein Folding, DNA, Complementary, Insecta, Time Factors, medicine.medical_treatment, Immunoblotting, Molecular Sequence Data, Peptide, Biochemistry, Catalysis, Cell Line, Zymogen, Endopeptidases, medicine, Amyloid precursor protein, Concanavalin A, Animals, Aspartic Acid Endopeptidases, Humans, Amino Acid Sequence, Subtilisins, Protein Precursors, Molecular Biology, Furin, Guanidine, chemistry.chemical_classification, Protease, Binding Sites, biology, Dose-Response Relationship, Drug, Chemistry, Reverse Transcriptase Polymerase Chain Reaction, Cell Biology, Precipitin Tests, Transmembrane protein, Recombinant Proteins, Protein Structure, Tertiary, N-terminus, Transmembrane domain, Kinetics, Culture Media, Conditioned, biology.protein, Electrophoresis, Polyacrylamide Gel, Amyloid Precursor Protein Secretases, Baculoviridae

Abstract

beta-Secretase (BACE) is a membrane-bound aspartyl protease that cleaves the amyloid precursor protein to generate the N terminus of the amyloid beta peptide. BACE is expressed as a precursor protein containing Pre, Pro, protease, transmembrane, and cytosolic domains. A soluble BACE derivative (PreProBACE460) that is truncated between the protease and transmembrane domains was produced by baculovirus-mediated expression. ProBACE460 was purified from conditioned media of infected insect cells using immobilized concanavalin A and immobilized BACE inhibitor, P10-P4' Stat(Val). Furin cleaves ProBACE460 between the Pro and protease regions to generate mature BACE460. The k(cat)/K(m) of ProBACE460 when assayed with a polypeptide substrate is only 2.3-fold less than that of BACE460. This finding and the similar inhibitory potency of P10-P4' Stat(Val) for ProBACE460 and BACE460 suggest that the Pro domain has little effect on the BACE active site. Exposure of ProBACE460 to guanidine denaturation/renaturation results in a 7-fold higher recovery of BACE activity than when BACE460 is similarly treated. The presence of free BACE Pro peptide during renaturation of BACE460 but not ProBACE460 increases recovery of activity. These findings show that the Pro domain in ProBACE460 does not suppress activity as in a strict zymogen but does appear to facilitate proper folding of an active protease domain.

Published

2001

39. Photoactivated gamma-secretase inhibitors directed to the active site covalently label presenilin 1

Author

Stephen J. Gardell, Mark S. Shearman, Yueming Li, Joseph G. Neduvelil, Ming-Tain Lai, Min Xu, T. Harrison, Jules A. Shafer, C Lellis, Mohinder K. Sardana, R B Register, Kuo-Chang Yin, Qian Huang, Alan Nadin, Xiao Ping Shi, Jillian DiMuzio-Mower, José L. Castro, and Adrian L. Smith

Subjects

Photochemistry, Nicastrin, Biotin, Photoaffinity Labels, Presenilin, Amyloid beta-Protein Precursor, PEN-2, Alzheimer Disease, mental disorders, Endopeptidases, Presenilin-2, Amyloid precursor protein, Presenilin-1, Aspartic Acid Endopeptidases, Humans, APH-1, Enzyme Inhibitors, Multidisciplinary, Binding Sites, biology, Membrane Proteins, nervous system diseases, Gamma-secretase complex, Transmembrane domain, nervous system, Biochemistry, biology.protein, Amyloid Precursor Protein Secretases, Amyloid precursor protein secretase, HeLa Cells

Abstract

Cleavage of amyloid precursor protein (APP) by the beta- and gamma-secretases generates the amino and carboxy termini, respectively, of the A beta amyloidogenic peptides A beta40 and A beta42--the major constituents of the amyloid plaques in the brain parenchyma of Alzheimer's disease patients. There is evidence that the polytopic membrane-spanning proteins, presenilin 1 and 2 (PS1 and PS2), are important determinants of gamma-secretase activity: mutations in PS1 and PS2 that are associated with early-onset familial Alzheimer's disease increase the production of A beta42 (refs 4-6), the more amyloidogenic peptide; gamma-secretase activity is reduced in neuronal cultures derived from PS1-deficient mouse embryos; and directed mutagenesis of two conserved aspartates in transmembrane segments of PS1 inactivates the ability of gamma-secretase to catalyse processing of APP within its transmembrane domain. It is unknown, however, whether PS1 (which has little or no homology to any known aspartyl protease) is itself a transmembrane aspartyl protease or a gamma-secretase cofactor, or helps to colocalize gamma-secretase and APP. Here we report photoaffinity labelling of PS1 (and PS2) by potent gamma-secretase inhibitors that were designed to function as transition state analogue inhibitors directed to the active site of an aspartyl protease. This observation indicates that PS1 (and PS2) may contain the active site of gamma-secretase. Interestingly, the intact, single-chain form of wild-type PS1 is not labelled by an active-site-directed photoaffinity probe, suggesting that intact wild-type PS1 may be an aspartyl protease zymogen.

Published

2000

40. Presenilin 1 is linked with gamma-secretase activity in the detergent solubilized state

Author

Xiao-Ping Shi, Min Xu, Ming-Tain Lai, Kuo-Chang Yin, Qian Huang, Jillian DiMuzio-Mower, Jules A. Shafer, Stephen J. Gardell, Mohinder K. Sardana, and Yueming Li

Subjects

Recombinant Fusion Proteins, Detergents, Cell Fractionation, Presenilin, Substrate Specificity, chemistry.chemical_compound, Amyloid beta-Protein Precursor, PEN-2, Alzheimer Disease, Endopeptidases, Pepstatins, Amyloid precursor protein, Presenilin-1, Aspartic Acid Endopeptidases, Humans, Protease Inhibitors, APH-1, Gamma secretase, Multidisciplinary, biology, Cell Membrane, Membrane Proteins, Cholic Acids, Dipeptides, Gamma-secretase complex, Neoplasm Proteins, chemistry, Biochemistry, Solubility, biology.protein, Commentary, Carbamates, Amyloid Precursor Protein Secretases, Amyloid precursor protein secretase, Pepstatin, HeLa Cells

Abstract

γ-Secretase is a membrane-associated protease that cleaves within the transmembrane region of amyloid precursor protein to generate the C termini of the two Aβ peptide isoforms, Aβ40 and Aβ42. Here we report the detergent solubilization and partial characterization of γ-secretase. The activity of solubilized γ-secretase was measured with a recombinant substrate, C100Flag, consisting largely of the C-terminal fragment of amyloid precursor protein downstream of the β-secretase cleavage site. Cleavage of C100Flag by γ-secretase was detected by electrochemiluminescence using antibodies that specifically recognize the Aβ40 or Aβ42 termini. Incubation of C100Flag with HeLa cell membranes or detergent-solubilized HeLa cell membranes generates both the Aβ40 and Aβ42 termini. Recovery of catalytically competent, soluble γ-secretase critically depends on the choice of detergent; CHAPSO (3-[(3-cholamidopropyl)dimethylammonio]-2-hydroxy-1-propanesulfonate) but not Triton X-100 is suitable. Solubilized γ-secretase activity is inhibited by pepstatin and more potently by a novel aspartyl protease transition-state analog inhibitor that blocks formation of Aβ40 and Aβ42 in mammalian cells. Upon gel exclusion chromatography, solubilized γ-secretase activity coelutes with presenilin 1 (PS1) at an apparent relative molecular weight of approximately 2.0 × 10 6 . Anti-PS1 antibody immunoprecipitates γ-secretase activity from the solubilized γ-secretase preparation. These data suggest that γ-secretase activity is catalyzed by a PS1-containing macromolecular complex.

Published

2000

41. Selective inhibition of factor Xa in the prothrombinase complex by the carboxyl-terminal domain of antistasin

Author

Victor M. Garsky, Julie A. Krueger, C. M. Cooper, S. D. Lewis, Craig T. Przysiecki, Shi-Shan Mao, Colin Lellis, Joseph G. Joyce, Mohinder K. Sardana, and Jules A. Shafer

Subjects

medicine.drug_mechanism_of_action, Invertebrate Hormones, Factor Xa Inhibitor, Molecular Sequence Data, Phospholipid, chemistry.chemical_element, Peptide, Calcium, Spodoptera, Biochemistry, Catalysis, Thromboplastin, chemistry.chemical_compound, Prothrombinase, medicine, Animals, Humans, Amino Acid Sequence, Molecular Biology, chemistry.chemical_classification, medicine.diagnostic_test, biology, Chemistry, Active site, Anticoagulants, Cell Biology, Peptide Fragments, A-site, Kinetics, COS Cells, biology.protein, Cattle, Partial Thromboplastin Time, Prothrombin, Partial thromboplastin time, Factor Xa Inhibitors

Abstract

Studies of antistasin, a potent factor Xa inhibitor with anticoagulant properties, were performed wherein the properties of the full-length antistasin polypeptide (ATS-119) were compared with the properties of forms of antistasin truncated at residue 116 (ATS-116) and residue 112 (ATS-112). ATS-119 was 40-fold more potent than ATS-112 in prolonging the activated partial thromboplastin time (APTT), whereas ATS-119 inhibited factor Xa 2.2-fold less avidly and about 5-fold more slowly than did ATS-112. The decreased reactivity of ATS-119 suggests that the carboxyl-terminal domain of ATS-119 stabilizes an ATS conformation with a reduced reactivity toward factor Xa. The observation that calcium ion increases the reactivity of ATS-119 but not that of ATS-112 suggests that calcium ion may disrupt interactions involving the carboxyl terminus of ATS-119. Interestingly, ATS-119 inhibited factor Xa in the prothrombinase complex 2–6-fold more potently and 2–3-fold faster than ATS-112. These differences in affinity and reactivity might well account for the greater effectiveness of ATS-119 in prolonging the APTT and suggest that the carboxyl-terminal domain of ATS-119 disrupts interactions involving phospholipid, factor Va, and prothrombin in the prothrombinase complex. The peptide RPKRKLIPRLS, corresponding to the carboxyl domain of ATS-119 prolonged the APTT and inhibited prothrombinase-catalyzed processing of prothrombin, but it failed to inhibit the catalytic activity of isolated factor Xa. Thus, this novel inhibitor appears to exert its inhibitory effects at a site removed from the active site of factor Xa.

Published

1998

42. Efficacious, orally bioavailable thrombin inhibitors based on 3-aminopyridinone or 3-aminopyrazinone acetamide peptidomimetic templates

Author

Bobby J. Lucas, S. Dale Lewis, and Jules A. Shafer, Stephen J. Gardell, Maria T. Stranieri, Timothy R. Hare, Kellie J. Cutrona, Joseph J. Lynch, Dona L. Dyer, Adel M. Naylor-Olsen, Joseph P. Vacca, Sanderson Philip E, Colleen M. McDonough, Kari Vastag, Julie A. Krueger, Youwei Yan, Bruce D. Dorsey, C. M. Cooper, Terry A. Lyle, Zhongguo Chen, Elizabeth A. Lyle, I.-W. Chen, Jacquelynn J. Cook, and Jiunn H. Lin

Subjects

Models, Molecular, Peptidomimetic, Pyridones, Aminopyridines, Biological Availability, Pharmacology, Crystallography, X-Ray, Chemical synthesis, chemistry.chemical_compound, Structure-Activity Relationship, Thrombin, Dogs, Drug Discovery, medicine, Structure–activity relationship, Animals, biology, Chemistry, Molecular Mimicry, Combinatorial chemistry, Macaca mulatta, Rats, Enzyme inhibitor, Pyrazines, biology.protein, Molecular Medicine, Bioisostere, Peptides, Acetamide, medicine.drug, Discovery and development of direct thrombin inhibitors

Abstract

We have addressed the key deficiency of noncovalent pyridinone acetamide thrombin inhibitor L-374,087 (1), namely, its modest half-lives in animals, by making a chemically stable 3-alkylaminopyrazinone bioisostere for its 3-sulfonylaminopyridinone core. Compound 3 (L-375,378), the closest aminopyrazinone analogue of 1, has comparable selectivity and slightly decreased efficacy but significantly improved pharmacokinetics in rats, dogs, and monkeys to 1. We have developed an efficient and versatile synthesis of 3, and this compound has been chosen for further preclinical and clinical development.

Published

1998

43. Cardiovascular chemotherapy: anticoagulants

Author

Jules A. Shafer

Subjects

medicine.drug_mechanism_of_action, medicine.drug_class, Factor Xa Inhibitor, Low molecular weight heparin, Pharmacology, Biochemistry, Analytical Chemistry, Thromboembolism, Medicine, Humans, Venous Thrombosis, business.industry, Anticoagulant, Warfarin, Thrombin, Anticoagulants, Heparin, medicine.disease, Thrombosis, Cerebrovascular Disorders, Direct thrombin inhibitor, Cardiovascular Diseases, Drug Design, business, Pulmonary Embolism, medicine.drug, Discovery and development of direct thrombin inhibitors, Factor Xa Inhibitors

Abstract

Anticoagulant therapy has changed dramatically during the past two years. Low molecular weight heparin has substantially replaced unfractionated heparin as the parenteral anticoagulant of choice. The use of warfarin has substantially increased, especially for prevention of stroke in the setting of atrial fibrillation. It has become clear that warfarin cannot be administered effectively in an unmonitored fixed-dose fashion. The parenteral direct thrombin inhibitor desirudin was shown to be efficacious in the prevention of deep vein thrombosis in man. Small thrombin and factor Xa inhibitors with in vivo oral anticoagulant activity have been identified.

Published

1998

44. Characterization of the two-step pathway for inhibition of thrombin by alpha-ketoamide transition state analogs

Author

Kellie J. Cutrona, Roger M. Freidinger, John T. Sisko, Jules A. Shafer, Shi-Shan Mao, Bobby J. Lucas, Stephen J. Gardell, Stephen F. Brady, S. D. Lewis, and Sanderson Philip E

Subjects

Serine Proteinase Inhibitors, Stereochemistry, Biochemistry, Binding, Competitive, Dissociation (chemistry), Catalysis, Adduct, Thrombin, Reaction rate constant, Transition state analog, medicine, Molecular Biology, Equilibrium constant, Fluorescent Dyes, Binding Sites, biology, Chemistry, Active site, Cell Biology, Trypsin, Kinetics, Models, Chemical, Flow Injection Analysis, biology.protein, Oligopeptides, medicine.drug

Abstract

The interaction of thrombin with several potent and selective alpha-ketoamide transition state analogs was characterized. L-370, 518 (H-N-Me-D-Phe-Pro-t-4-aminocyclohexylglycyl N-methylcarboxamide) a potent (Ki = 90 pM) and selective (10(4)-fold versus trypsin) ketoamide thrombin inhibitor was shown to bind thrombin via a two-step reaction wherein the initially formed thrombin-inhibitor complex (EI1) rearranges to a more stable, final complex (EI2). A novel sequential stopped-flow analysis showed that k-1, the rate constant for dissociation of EI1, was comparable to k2, the rate constant for conversion of EI1 to EI2 (0.049 and 0.035 s-1, respectively) indicating that formation of the initial complex EI1 is partially rate controlling. Replacement of the N-terminal methylamino group in L-370,518 with a hydrogen (L-372,051) resulted in a 44-fold loss in potency (Ki = 4 nM) largely due to an increase in k-1. Consequently in the reaction of L-372,051 with thrombin formation of EI1 was not rate controlling. Replacement of the P1' N-methylcarboxamide group of L-370,518 with an azetidylcarboxamido (L-372,228) produced a 58-fold increase in the value of the equilibrium constant (K-1) for dissociation of EI1. Nevertheless, L-372,228 was a 2-fold more potent thrombin inhibitor (Ki = 40 pM) than L-370,518 due to its 16-fold higher k2 and 10-fold lower k-2 values. The desketoamide analogs of L-370,518 and L-372,051, namely L-371,912 and L-372,011, inhibited thrombin via a one-step process. The Ki value for L-371,912 and the K-1 value for its alpha-ketoamide analog, L-370,518, were similar (5 and 14 nM, respectively). Likewise, the Ki value for L-372,011 and the K-1 value for its alpha-ketoamide analog, L-372,051, were similar (330 and 285 nM, respectively). These observations are consistent with the view that the alpha-ketoamides L-370,518 and L-372,051 form initial complexes with thrombin that are similar to the complexes formed by their desketoamide analogs, and in a second step the alpha-ketoamides react with the active site serine residue of thrombin to form a more stable hemiketal adduct.

Published

1998

45. Crystal structure of human alpha-thrombin complexed with hirugen and p-amidinophenylpyruvate at 1.6 A resolution

Author

A. M. Mulichak, Jules A. Shafer, Ying Li, S. D. Lewis, and Zhongguo Chen

Subjects

Models, Molecular, Stereochemistry, Phenylpyruvic Acids, Protein Conformation, Molecular Sequence Data, Biophysics, Crystal structure, In Vitro Techniques, Crystallography, X-Ray, Biochemistry, Thrombin, Tetrahedral carbonyl addition compound, medicine, Molecule, Humans, Trypsin, Amino Acid Sequence, Molecular Biology, Ternary complex, Binding Sites, Molecular Structure, Chemistry, Hydrogen bond, Hydrogen Bonding, Hirudins, Peptide Fragments, Crystallography, Covalent bond, Crystallization, circulatory and respiratory physiology, medicine.drug

Abstract

Crystals of human alpha-thrombin complexed with hirugen and the alpha-keto acid thrombin inhibitor APPA (p-amidinophenylpyruvate) that diffract to 1.6 A resolution were obtained by soaking an alpha-thrombin-hirugen crystal in a solution of APPA. The crystal structure was determined using the difference Fourier method and refined to an R factor of 18.7% at 1.6 A resolution. This structure is the highest resolution structure of the thrombin molecule that is currently available. With the exception of the region near Arg77A-Asn78, the structures of the thrombin and hirugen molecules in the ternary complex are similar to those reported for the thrombin-hirugen binary complex. As previously determined for the APPA-trypsin complex, the carbonyl carbon atom of APPA forms a covalent bond with O gamma of Ser195 of thrombin to yield a "transition-state" analog of the tetrahedral intermediate. Comparison of the specificity pocket of the APPA complexes of thrombin and trypsin reveals differences in hydrogen bonding and shows for the first time that the S1 site of thrombin is larger than that of trypsin and as a result thrombin may be able to accommodate a bulkier P1 group than trypsin.

Published

1995

46. An antibody against the exosite of the cloned thrombin receptor inhibits experimental arterial thrombosis in the African green monkey

Author

Bohumil Bednar, Ruth F. Nutt, Dong-Mei Feng, Jacquelynn J. Cook, Jules A. Shafer, Thomas M. Connolly, G. R. Sitko, M J Mellott, Robert J. Gould, and Cindra L. Condra

Subjects

Platelet Aggregation, Pharmacology, Fibrin, Antibodies, Thrombin, In vivo, Physiology (medical), Thrombin receptor, Chlorocebus aethiops, medicine, Animals, Platelet, Platelet activation, Receptor, biology, business.industry, Thrombosis, Recombinant Proteins, Immunology, Antibody Formation, biology.protein, Receptors, Thrombin, Cardiology and Cardiovascular Medicine, business, circulatory and respiratory physiology, Discovery and development of direct thrombin inhibitors, medicine.drug

Abstract

Background Thrombin inhibitors have been shown to be efficacious in animal models of thrombosis and in initial human clinical trials. It is unknown if their efficacy is due to their prevention of thrombin-mediated fibrin formation or to an inhibitory effect on thrombin-stimulated platelet activation. Appropriate tools to address this question have not been available. Therefore, to evaluate the role of the platelet thrombin receptor in intravascular thrombus formation, a polyclonal antibody was raised against a peptide derived from the thrombin-binding exosite region of the cloned human thrombin receptor. This antibody serves as a selective inhibitor of the thrombin receptor for in vivo evaluation. Methods and Results The immune IgG (IgG 9600) inhibited thrombin-stimulated aggregation and secretion of human platelets. In contrast, it had no effect on platelet activation induced by other agonists including ADP, collagen, or the thrombin receptor–derived peptide SFLLR-NH 2 . IgG 9600 also inhibited thrombin-induced aggregation of African Green monkey (AGM) platelets. By Western blot analysis, the IgG identified a protein of ≈64 kD in homogenates of both human and AGM platelets. The effect of thrombin receptor blockade by this antibody on arterial thrombosis was evaluated in an in vivo model of platelet-dependent cyclic flow reductions (CFRs) in the carotid artery of the AGM. The intravenous administration of IgG 9600 (10 mg/kg) abolished CFRs in three monkeys and reduced CFR frequency by 50% in a fourth monkey. Ex vivo platelet aggregation in response to up to 100 nmol/L thrombin was completely inhibited during the 120-minute postbolus observation period in all four animals. There was a twofold increase in bleeding time, which was not statistically different from baseline, and ex vivo clotting time (APTT) was not changed. The glycoprotein IIb/IIIa receptor antagonist MK-0852 and the thrombin inhibitor recombinant hirudin also demonstrated inhibitory effects on CFRs at doses that did not significantly prolong template bleeding time. Control IgG had no effect on CFRs, ex vivo platelet aggregation, bleeding time, or APTT. Conclusions These results demonstrate that blockade of the platelet thrombin receptor can prevent arterial thrombosis in this animal model without significantly altering hemostatic parameters and suggest that the thrombin receptor is an attractive antithrombotic target.

Published

1995

47. Effect of template secondary structure on the inhibition of HIV-1 reverse transcriptase by a pyridinone non-nucleoside inhibitor

Author

S S Carroll, Jules A. Shafer, Lawrence C. Kuo, J C Culberson, and David B. Olsen

Subjects

Pyridones, Molecular Sequence Data, Antiviral Agents, Nucleic acid secondary structure, Genetics, Animals, Protein secondary structure, DNA Primers, chemistry.chemical_classification, Benzoxazoles, biology, Base Sequence, Molecular Structure, RNA, Templates, Genetic, Nucleotidyltransferase, Reverse transcriptase, HIV Reverse Transcriptase, Globins, Enzyme, chemistry, Biochemistry, Polymerization, Enzyme inhibitor, biology.protein, Nucleic Acid Conformation, RNA, Viral, Reverse Transcriptase Inhibitors, Electrophoresis, Polyacrylamide Gel, Rabbits

Abstract

The importance of RNA secondary structure on HIV-1 reverse transcriptase catalyzed polymerization and on the potency of the pyridin-2-one inhibitor 3-(4,7-dichlorobenzoxazol-2-ylmethylamino)-5-ethyl-6-meth ylpyridin-2(1H)-one, L-697,661, were investigated by employing heteromeric primer-template systems. Our data revealed that a stem-loop hairpin secondary structure in the RNA template could lead to strong hindrance of reverse transcription in the reaction catalyzed by HIV-1 reverse transcriptase resulting in the build up of intermediate-length (pause) polymerization products. The presence of L-697,661 greatly enhanced the accumulation of the pause products suggesting that the rate of enzyme translocation from the pause product might be more potently inhibited than polymerization up to the pause site. Model experiments using a synthetic RNA template containing a stem-loop hairpin revealed that the inhibitory potency of L-697, 661 increased 2-fold upon polymerization to within four bases of the secondary structure. Inhibitor potency was enhanced over 6-fold when primer-extension proceeded through the duplex region of the stem-loop.

Published

1994

48. Preface

Author

Lawrence C. Kuo and Jules A. Shafer

Published

1994

49. Solution oligomerization of the rev protein of HIV-1: implications for function

Author

Lawrence C. Kuo, Jules A. Shafer, John D. Gehman, and James L. Cole

Subjects

Reaction mechanism, Macromolecular Substances, viruses, Enthalpy, Biochemistry, chemistry.chemical_compound, Escherichia coli, Centrifugation, Cloning, Molecular, Equilibrium constant, Isodesmic reaction, Chemistry, Binding protein, RNA, rev Gene Products, Human Immunodeficiency Virus, Hydrogen-Ion Concentration, Recombinant Proteins, Solutions, Kinetics, Monomer, Gene Products, rev, Biophysics, HIV-1, RNA, Viral, Thermodynamics, Mathematics

Abstract

rev is an RNA-binding protein of human immunodeficiency virus-1 and is required for the expression of incompletely spliced viral transcripts. Oligomerization of rev is thought to be associated with RNA binding and rev function. Here, we have characterized the oligomerization of rev using equilibrium analytical centrifugation. rev is predominantly monomeric at low concentrations, but reversibly polymerizes to produce large aggregates at higher concentrations. The data fit well to an unlimited isodesmic self-association model in which the association constants for the addition of a monomer to each aggregate are equal [K = 1.08 x 10(6) M-1 at 4 degrees C]. The association constant is essentially independent of monovalent salt concentration from 0.15 to 2 M at pH 6-9. Thermodynamic parameters derived from the temperature dependence of the association constant over the limited range of 0-30 degrees C reveal that the primary contribution to the free energy of oligomerization is a large negative enthalpy. Binding of rev to the rev-responsive element of RNA was characterized under the same conditions as the centrifugation experiments using a nitrocellulose filter assay. rev binds to the RRE at a protein concentration where rev is predominantly monomeric, suggesting that solution multimerization of rev is not required for rev function.

Published

1993

50. Importance of the Arg-Gly-Asp triplet in human thrombin for maintenance of structure and function

Author

Yiping Li, Zhong-Ru Gan, Jules A. Shafer, T. M. Connolly, S. D. Lewis, Mohinder K. Sardana, and Pei-Kuo Tsai

Subjects

Circular dichroism, Serotonin, Protein Conformation, Molecular Sequence Data, Biophysics, Hirudin, Receptors, Cell Surface, Thrombomodulin, Biochemistry, Catalysis, Amino Acid Chloromethyl Ketones, Structure-Activity Relationship, Thrombin, medicine, Humans, Platelet activation, Amino Acid Sequence, Disulfides, Site-directed mutagenesis, Molecular Biology, biology, Base Sequence, Dose-Response Relationship, Drug, Chemistry, Circular Dichroism, Active site, Fibrinogen, Hirudins, Platelet Activation, Recombinant Proteins, biology.protein, Mutagenesis, Site-Directed, Receptors, Thrombin, Oligopeptides, Protein C, circulatory and respiratory physiology, medicine.drug

Abstract

Site-directed mutagenesis was employed to assess the importance of the Arg-Gly-Asp triplet that comprises residues 197 to 199 in the B-chain of thrombin. Properties of the R197E and the D199E variants were compared with those of zeta-thrombin and the inactive S205A variant wherein the active site Ser is replaced by Ala. Relative to zeta-thrombin, the R197E thrombin variant under the assay conditions used exhibits 26% activity toward a small chromogenic substrate, 13% activity in the activation of protein C in the presence of thrombomodulin,3% activity in processing fibrinogen, and 1% activity in inducing platelet activation. Thus, the substrate specificity of thrombin was altered by the R197--E replacement. The D199E variant was essentially inactive. It exhibited only 0.02% of the activity of thrombin toward the chromogenic substrate and its reactivity toward the active site-directed alkylating agent D-Phe-Pro-Arg-CH2Cl was 10,000-fold lower than that of thrombin. Like the inactive S205A thrombin variant, the D199E variant antagonized the interactions of thrombin with hirudin and thrombomodulin, but was a less effective antagonist. The dependence of the antagonism of the thrombin-thrombomodulin interaction on the concentration of D199E thrombin variant provided evidence suggesting the presence of two or more domains in thrombin that independently interact with their counterparts in thrombomodulin. Although the S205A thrombin variant antagonized the action of thrombin on platelets no such activity could be demonstrated for the D199E variant in the concentration range studied (800 nm). Comparison of the circular dichroism spectra of zeta-thrombin, the D199E, R197E, and S205A variants indicated that subtle differences in conformation exist between the D199E variant and the other thrombins. These differences in conformation might well account for the altered behavior of the D199E variant with respect to its interactions toward thrombomodulin, hirudin, and platelets.

Published

1993