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Thromb Haemost 1984; 51(01): 119-124
DOI: 10.1055/s-0038-1661036
DOI: 10.1055/s-0038-1661036
Original Article
Platelet Aggregation Caused by Dithiothreitol
Further Information
Publication History
Received 12 August 1983
Accepted 30 November 1983
Publication Date:
19 July 2018 (online)
Summary
MacIntyre et al. showed that over 1 mM dithiothreitol (DTT) aggregates blood platelets in the presence of fibrinogen; aggregation is not inhibited by prostaglandin E1. We confirmed their data and found that 70 mM 2-mercaptoethanol was also active. DTT- induced aggregation was not associated with platelet shape change or secretion of dense granule contents, was not inhibited by tetracaine or metabolic inhibitors, was prevented at pH 6.5, and prevented, reversed, or arrested by EDTA, depending on when the EDTA was added. DTT did not cause aggregation of thrombasthenic, EDTA-treated, or cold (0° C) platelets, which also failed to aggregate with ADP. Platelets stimulated with DTT bound 125I-labeled fibrinogen. Thus DTT appears to “expose” the fibrinogen receptors. SDS gel electrophoresis of platelet fractions prepared by use of Triton X-114 showed that aggregating concentrations of DTT reduced proteins of apparent Mr 69,000 and 52,000 (probably platelet albumin) and, to a variable extent, glycoproteins Ib, IIb and III. Exposure of unlabeled or 125I- labeled platelets to ADP had no discernible effect on the electrophoretic patterns.
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References
- 1 Mustard JF, Packham MA, Kinlough-Rathbone RL, Perry DW, Regoeczi E. Fibrinogen and ADP-induced aggregation. Blood 1978; 52: 453-466
- 2 Bennett JS, Vilaire G. Exposure of platelet fibrinogen receptors by ADP and epinephrine. J Clin Invest 1979; 64: 1393-1401
- 3 Marguerie GA, Plow EF, Edgington TS. Human platelets possess an inducible and saturable receptor specific for fibrinogen. J Biol Chem 1979; 254: 5357-5363
- 4 Peerschke EI, Zucker MB, Grant RA, Egan JJ, Johnson MM. Correlation between fibrinogen binding to human platelets and platelet aggregability. Blood 1980; 55: 841-847
- 5 Hawiger J, Parkinson S, Timmons S. Prostacyclin inhibits mobilisation of fibrinogen-binding sites on human ADP- and thrombin-treated platelets. Nature 1980; 283: 195-197
- 6 Plow EF, Marguerie GA. Participation of ADP in the binding of fibrinogen to thrombin stimulated platelets. Blood 1980; 56: 553-555
- 7 Peerschke EI. Induction of human platelet fibrinogen receptors by epinephrine in the absence of released ADP. Blood 1982; 60: 71-77
- 8 Peerschke EI, Zucker MB. Fibrinogen receptor exposure and aggregation of human blood platelets produced by ADP and chilling. Blood 1981; 57: 663-670
- 9 Zucker MB, Zaccardi JB. Platelet shape change induced by adenosine diphosphate and prevented by adenosine monphosphate. Fed Proc 1964; 23: 299 (abstract)
- 10 Macmillan DC, Oliver MF. The initial changes in platelet morphology following the addition of adenosine diphosphate. J Atheroscler Res 1965; 5: 440-444
- 11 Zucker MB, Peerschke EI. Specific binding of fibrinogen to platelets: relationship to shape change and aggregation. In: Platelets: Cellular response mechanisms and their biological significance. Rotman A, Meyer FA, Gitler C, Silberberg A. (eds) John Wiley and Sons; New York: 1980. pp 157-168
- 12 Peerschke EI, Zucker MB. Relationship of ADP-induced fibrinogen binding to platelet shape change and aggregation elucidated by use of colchicine and cytochalasin B. Thromb Haemostas 1980; 43: 58-60
- 13 MacIntyre DE, Gordon JL. Evidence for two populations of disulphide bonds on blood platelets. Biochem Soc Trans 1974; 2: 873-875
- 14 MacIntyre DE, Grainge CA, Drummond AH, Gordon JL. Effect of thio reagents on platelet transport processes and responses to stimuli. Biochem Pharmacol 1977; 26: 319-323
- 15 MacIntyre DE, Gordon JL. Prostaglandin receptor on blood platelets: effect of thiol reagents on inhibition of platelet aggregation by prostaglandin E1 . Biochem Soc Trans 1974; 2: 1265-1269
- 16 George JN. Studies on platelet plasma membranes. IV. Quantitative analysis of platelet membrane glycoproteins by (125I)-diazotized diiodosulfanilic acid labeling and SDS-polyacrylamide gel electrophoresis. J Lab Clin Med 1978; 92: 430-446
- 17 Mustard JF, Perry DW, Ardlie NG, Packham MA. Preparation of suspensions of washed platelets from humans. Br J Haematol 1972; 22: 193-204
- 18 Zucker MB, Masiello NC. The Triton X-100 insoluble residue (“cytoskeleton”) of aggregated platelets contains increased lipid phosphorus as well as 125I-labeled glycoproteins. Blood 1983; 61: 674-683
- 19 Valdorf-Hansen JF, Zucker MB. Effect of temperature and inhibitors on serotonin-14C release from human platelets. Am J Physiol 1971; 220: 105-111
- 20 Newman PJ, Knipp MA, Kahn RA. Extraction and identification of human platelet integral membrane proteins using Triton X-114. Thromb Res 1982; 27: 221-224
- 21 Laemmli UK. Cleavage of structural proteins during the assembly of the head of bacteriophage T4. Nature 1970; 227: 680-685
- 22 Morrissey JH. Silver stain for proteins in polyacrylamide gels: a modified procedure with enhanced uniform sensitivity. Anal Biochem 1981; 117: 307-310
- 23 Burnette WN. “Western blotting”: electrophoretic transfer of proteins from sodium dodecyl sulfate-polyacrylamide gels to unmodified nitrocellulose and radiographic detection with antibody and radioiodi- nated protein A. Anal Biochem 1981; 112: 195-203
- 24 Fraker PM, Speck Jr JC. Protein cell membrane iodinations with a sparingly soluble chloroamide, 1,3,4,6-tetrachloro-3, 6-diphenylgly- coluril. Biochem Biophys Res Commun 1978; 80: 849-857
- 25 Rotman A, Heldman J, Linder S. Association of membrane and cytoplasmic proteins with the cytoskeleton in blood platelets. Biochemistry 1982; 21: 1713-1719
- 26 Phillips DR, Poh Agin P. Platelet plasma membrane glycoproteins. Evidence for the presence of nonequivalent disulfide bonds using nonreduced-reduced two-dimensional gel electrophoresis J Biol Chem 1977; 252: 2121-2126
- 27 Zucker MB, Grant RA. Nonreversible loss of platelet aggregability induced by calcium deprivation. Blood 1978; 52: 505-514
- 28 Zahler WL, Cleland WW. A specific and sensitive assay for disulfides. J Biol Chem 1968; 243: 716-719
- 29 Dubray G, Bezard G. A highly sensitive periodic acid-silver stain for 1,2-diol groups of glycoproteins and polysaccharides in polyacrylamide gels. Anal Biochem 1982; 119: 325-329
- 30 Phillips DR, Jennings LK, Edwards HH. Identification of membrane proteins mediating the interaction of human platelets. J Cell Biol 1980; 86: 77-86
- 31 Nurden AT, Kunicki TJ, Dupuis D, Soria C, Caen JP. Specific protein and glycoprotein deficiencies in platelets isolated from two patients with the gray platelet syndrome. Blood 1982; 59: 709-718
- 32 Nachman RL, Leung LK. Complex formation of platelet membrane glycoproteins IIb and IIIa with fibrinogen. J Clin Invest 1982; 69: 263-269
- 33 Gogstad GO, Brosstad F, Krutnes M-B, Hagen I, Solum NO. Fibrinogen-binding properties of the human platelet glycoprotein IIb-IIIa complex: a study using crossed-radioimmunoelectrophoresis. Blood 1982; 60: 663-671
- 34 Dickson RC, Doery JC G, Lewis AF. Ultraviolet light: a new stimulus for the induction of platelet aggregation. Science 1971; 172: 1140-1142
- 35 Doery JC, Dickson RC, Hirsh J. Induction of aggregation of human blood platelets by ultraviolet light: action spectrum and structural changes. Blood 1973; 2: 551-555
- 36 Robey FA, Jamieson GA, Hunt JB. Synthesis and use of a new spinlabeled analogue of ADP with platelet-aggregating activity. J Biol Chem 1979; 254: 1114-1118
- 37 Marcus AJ, Silk ST, Safier LB, Ullman HL. Superoxide production and reducing activity in human platelets. J Clin Invest 1977; 59: 149-158
- 38 Sahud MA, Aggeler PM. Utilization of ascorbic acid during platelet aggregation. Proc Soc Exp Biol Med 1970; 134: 13-16
- 39 Hofmann J, Losche W, Arese P, Bosia A, Pescarmona GP, Hofmann B, Thielmann K, Till U. Regulatory function of the cellular thiol- disulfide status in the metabolic control of human blood platelet aggregation. Sixth International Symposium on Atherosclerosis Berlin: 1982: 70 (Abstr)