血小板とカルシウム

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Published in血液と脈管 Vol. 20; no. 3; pp. 201 - 212
Main Author 久米, 章司
Format Journal Article
LanguageEnglish
Published 一般社団法人 日本血栓止血学会 01.06.1989
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ISSN0386-9717
1884-2372
DOI10.2491/jjsth1970.20.201

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Author 久米, 章司
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References 28) Doyle, V. M. and Rüegg, U. T.: Lack of evidence for voltage dependent calcium channels on platelets. Biochem. Biophys. Res. Commun., 127; 161-167, 1985.
16) Dean, W. L.: Purification and reconstitution of Ca2+ pump from human platelets. J. Biol. Chem., 259; 7343-7348, 1984.
46) Irvine, R. F.: How do inositol 1, 4, 5-triphosphate and inositol 1, 3, 4, 5-tetrakisphosphate regulate intracellular Ca2+? Biochem. Soc. Transact., 17; 6-9, 1989.
14) Proudouz, K. N., Poindexter, B. J. and Fratantoni, J. C.: Ouabain affects platelet reactivity as measured in vitro. Thromb. Res., 46; 337-346, 1987.
44) Brass, L. and Joseph, S. K.: A role for inositol triphosphate in intracellular Ca2+ mobilization and granule secretion in platelets. J. Biol. Chem., 260; 15172-15179, 1985.
17) Hack, N., Croset, M. and Crawford, N.: Studies on the bivalent-cation activated ATPase activities of highly purified human platelet surface and intracellular membranes. Biochem. J., 233; 661-668, 1986.
45) Wilson, D. B., Connolly, T. M., Bross, T. E., Majerus, P. W., Sherman, W. R., Tyler, A. N., Rubin, L. J. and Brown, J. E.: Isolation and characterization of the inositol cyclic phosphate products of polyphosphoinositide cleavage by phospholipase C. Physiological effects in permeabilized platelets and Limulus photoreceptor cells. J. Biol. Chem., 260; 13496-13501, 1985.
50) Billah, M. M., Lapetina, E. G. and Cuatrecases, P: Phosphatidylinositol specific phospholipase C of platelets: association with 1, 2-diacylglycerol kinase and inhibition by cyclic AMP. Biochem. Biophys. Res. Commun., 90; 92-98, 1979.
11) Steiner, B. and Lüscher, E. F.: Evidence that the platelet plasma membrane does not contain a (Ca2++Mg2+)-dependent ATPase. Biochim. Biophys. Acta, 818; 299-309, 1985.
9) Brass, L. F., Shattil, S. J., Kunicki, T. J. and Bennett, J. S.: Effect of calcium on the stability of the platelet membrane glycoprotein IIb-IIIa complex. J. Biol. Chem., 260; 7875-7881, 1985.
52) Ware, J. A., Smith, M. and Salzman, E. W.: Synergism of platelet-aggregating agents. Role of elevation of cytoplasmic calcium. J. Clin. Invest., 80; 267-271, 1987.
33) Ware, J. A., Johnson, P. C., Smith, M. and Salzman, E. W.: Effect of common agonists on cytoplasmic ionized calcium concentration in platelets. Measurement with quin 2 and aequorin. J. Clin. Invest., 77; 878-886, 1986.
8) Poncz, M., Eisman, R., Heidenreich, R., Silver, S. M., Vilaire, G., Surrey, S., Schwartz, E. and Benett, J. S.: Structure of the platelet membrane glycoprotein IIb. J. Biol. Chem., 262; 8476-8482, 1987.
13) Brass, L. F.: The effect of Na+ on Ca2+ homeostasis in unstimulated platelets. J. Biol. Chem., 259; 12571-12575, 1984.
53) Jacobs, K. H., Bauer, S. and Watanabe, Y.: Modulation of adenylate cyclase of human platelets by phorbol ester. Impairment of the hormone-sensitive inhibitory pathway. Eur. J. Biochem., 151; 425-430, 1985.
4) Brass, L. F. and Shattil, S. J.: Changes in surface-bound and exchangeable calcium during platelet activation. J. Biol. Chem., 257; 14000-14005, 1982.
31) Grynkiewicz, G., Poenie, M. and Tsien, R. Y.: A new generation of Ca2+ indicators with greatly improved fluorescence properties. J. Biol. Chem., 260; 3440-3450, 1985.
3) Brass, L. F. and Shattil, S. J.: Identification and function of the high affinity binding sites for Ca2+ on the surface of platelets. J. Clin. Invest., 73; 626-632, 1984.
23) Jy, W. and Haynes, D. H.: Thrombin-induced calcium movements in platelet activation. Biochim. Biophys. Acta, 929; 88-102, 1987.
21) Rink, T. J., Smith, S. W. and Tsien, R. Y.: Cytoplasmic free Ca2+ in human platelets: Ca2+ thresholds and Ca-independent activation for shape change and secretion. FEBS Lett., 148; 21-26, 1982.
29) Tsien, R. Y., Pozzan, T. and Rink, T. J.: Calcium homeostasis in intact lymphocyte: cytoplasmic free calcium monitored with a new intracellularly trapped fluorescent indicator. J. Cell Biol., 94; 325-334, 1982.
7) Karpatkin, S., Ferziger, R. and Dorfman, D.: Cross immunoelectrophoresis of human platelet membranes. Effect of charge on association and dissociation of the glycoprotein GP IIb-GPIIIa membrane complex. J. Biol. Chem., 261; 14266-14272, 1986.
36) Tsunoda, Y., Matsuno, K. and Tashiro, Y.: Spatial distribution and temporal change of cytoplasmic free calcium in human platelets. Biochem. Biophys. Res. Commun., 156; 1152-1159, 1988.
6) Fujimura, K. and Phillips, D. R.: Calcium cation regulation of glycoprotein IIb-IIIa complex formation in platelet plasma membranes. J. Biol. Chem., 258; 10247-10252, 1983.
49) O'Rourke, F. A., Halenda, S. P., Zavoico, G. B. and Feinstein, M. B.: Inositol 1, 4, 5-triphosphate releases Ca2+ from a Ca2+-transporting membrane vesicle fraction derived from human platelet. J. Biol. Chem., 260; 956-962, 1985.
41) Gerrard, J. M., Peterson, D. A. and White, J. G.: Lysophosphatidic acids influence on platelet aggregation and intracellular calcium flux. Am. J. Physiol., 96; 423-438, 1979.
1) Rink, T. J., Smith, S. W. and Tsien, R. Y.: Cytoplasmic free Ca2+ in human platelets: Ca2+ thresholds and Ca-independent activation for shape change and secretion. FEBS Lett., 148; 21-26, 1982.
32) Yamaguchi, A., Suzuki, H., Tanoue, K. and Yamazaki, H.: Simple method of aequorin loading into platelets using dimethyl sulfoxide. Thromb. Res., 44; 165-174, 1986.
35) Ware, J. A., Smith, M., Fossel, E. T. and Salzman, E. W.: Cytoplasmic Mg2+ concentration in platelets: implication for determination of Ca2+ with aequorin. Am. J. Physiol., 255; H855-H859, 1988.
51) DeChaffoy de Courcelles, D., Roevens, P. and Van Belle, H.: Prostaglandin E1 and forskolin antagonize C-kinase activation in the human platelet. Biochem. J., 244; 93-99, 1987.
54) Steer, M. L. and Wood, A.: Regulation of human platelet adenylate cyclase by epinephrine, prostaglandin E1, and guanine nucleotides. J. Biol. Chem., 254; 10791-10797, 1979.
30) Johnson, P. C., Ware, J. A., Cliveden, P. B., Smith, M., Dvorak, A. M. and Salzman, E. W.: Measurement of ionized calcium in blood platelets with the photoprotein aequorin. Comparison with quin 2. J. Biol. Chem., 260; 2069-2076, 1985.
40) Benton, A. M., Gerrard, J. M., Michiel, T. and Kindom, S. E.: Are lysophosphatidic acids or phosphatidic acids involved in stimulus activation coupling in platelets. Blood, 60; 642-649, 1982.
39) Sundler, R., Düzgünes, N. and Papahadjopoulos, D.: Control of membrane fusion by phospholipid head groups. II. The role of phosphatidylethanolamine in mixtures with phosphatidate and phosphatidylinositol. Biochim. Biophys. Acta, 649; 751-758, 1981.
25) Irvine, R. F. and Moor, R. M.: Micro-injection of inositol 1, 3, 4, 5-tetrakisphosphate activates sea urchin egg by a mechanism dependent on external Ca2+. Biochem. J., 240; 917-920, 1986.
34) Rink, T. J., Sanchez, J. A. and Hallam, T. J.: Diacylglycerol and phorbol ester stimulate secretion without raising cytoplasmic free calcium in human platelets. Nature, 305; 317-319, 1983.
42) Nishizuka, Y.: The role of protein kinase C in cell surface signal transduction and tumor promotion. Nature, 308; 693-698, 1984.
15) Brass, L. F.: Ca2+ transport across the plasma membrane. A role for membrane glycoprotein IIb and IIIa. J. Biol. Chem., 260; 2231-2236, 1985.
20) Yoshida, K. -I. and Nachmias, V. T.: Phorbol ester stimulates calcium sequestration in saponinized human platelets. J. Biol. Chem., 262; 16048-16054, 1987.
22) Pollock, W. K. and Rink, T. J.: Thrombin and ionomycin can rise platelet cytoplasmic Ca2+ to micromolar levels by discharge of internal Ca2+ stores: studies using fura-2. Biochem. Biophys. Res. Commun., 139; 308-314, 1986.
43) Majerus, P. W., Connolly, T. M., Bansal, U. S., Inhorn, R. C., Ross, T. S. and Lips, D. L.: Inositol phosphates: synthesis and degradation. J. Biol. Chem., 263; 3051-3054, 1988.
10) Brass, L. F.: Ca2+ homeostasis in unstimulated platelets. J. Biol. Chem., 259; 12563-12570, 1984.
38) Serhan, C., Anderson, P., Goodman, E., Dunham, P. and Weissmann, G.: Phosphatidate and oxidized fatty acids are calcium ionophores. Studies employing arsenazo III in liposomes. J. Biol. Chem., 256; 2736-2741, 1981.
5) Bennett, J. S., Hoxie, J. A., Leitman, S. F., Vilaire, G. and Cines, D. B.: Inhibition of fibrinogen binding to stimulated human platelets by monoclonal antibody. Proc. Natl. Acad. Sci. USA, 80; 2417-2421, 1983.
18) Käser-Glanzman, R., Gerber, E. and Lüscher, E. F.: Regulation of the intracellular calcium levels in human blood platelets: cyclic adenosine 3′, 5′-monophosphate dependent phosphorylation of a 22,000 dalton component in isolated Ca2+-accumulating vesicles. Biochim. Biophys. Acta, 558; 344-347, 1979.
2) Gerrard, J. M., Peterson, D. A. and White, J. G.: Calcium mobilization. In: Platelet in Biology and Pathology 2, edited by Gordon, J. L., Amsterdam: Elsevier, 1981, p. 407-436.
24) Sage, S. O. and Rink, T. J.: Kinetic differences between thrombin-induced and ADP-induced calcium influx and release from internal stores in fura-2-loaded human platelets. Biochem. Biophys. Res. Commun., 136; 1124-1129, 1986.
19) Fisher, T. H. and White II, G. C.: Partial purification and characterization of thrombolamban, a 22,000 dalton cAMP-dependent protein kinase substrate in platelets. Biochem. Biophys. Res. Commun., 149; 700-706, 1987.
47) Volpe, P., Krause, K. -H., Hashimoto, S., Zorzato, F., Pozzan, T., Meldolesi, J. and Lew, D. P.: “Calciosome”, a cytoplasmic organelle: the inositol 1, 4, 5-triphosphatesensitive Ca2+ store of nonmuscle cells? Proc. Natl. Acad. Sci. USA, 85; 1091-1095, 1988.
27) Ware, J. A., Johnson, P. C., Smith, M. and Salzman, E. W.: Aequorin detects increased cytoplasmic calcium in platelets stimulated with phorbol ester or diacylglycerol. Biochem. Biophys. Res. Commun., 133; 98-104, 1985.
37) Haslam, R. J.: Signal transduction in platelet activation. ed. by Verstraete, M. et al. In. Thrombosis and Haemostasis. Leuven, Leuven University Press, 1987, p. 147-174.
48) Zavoico, G. B. and Feinstein, M. B.: Cytoplasmic calcium in platelet is controlled by cyclic AMP: antagonism
References_xml – reference: 7) Karpatkin, S., Ferziger, R. and Dorfman, D.: Cross immunoelectrophoresis of human platelet membranes. Effect of charge on association and dissociation of the glycoprotein GP IIb-GPIIIa membrane complex. J. Biol. Chem., 261; 14266-14272, 1986.
– reference: 26) Rengasamy, A. and Feinberg, H.: Inositol 1, 4, 5-triphosphate-induced calcium release from platelet plasma membrane vesicles. Biochem. Biophys. Res. Commun., 150; 1021-1026, 1988.
– reference: 36) Tsunoda, Y., Matsuno, K. and Tashiro, Y.: Spatial distribution and temporal change of cytoplasmic free calcium in human platelets. Biochem. Biophys. Res. Commun., 156; 1152-1159, 1988.
– reference: 33) Ware, J. A., Johnson, P. C., Smith, M. and Salzman, E. W.: Effect of common agonists on cytoplasmic ionized calcium concentration in platelets. Measurement with quin 2 and aequorin. J. Clin. Invest., 77; 878-886, 1986.
– reference: 45) Wilson, D. B., Connolly, T. M., Bross, T. E., Majerus, P. W., Sherman, W. R., Tyler, A. N., Rubin, L. J. and Brown, J. E.: Isolation and characterization of the inositol cyclic phosphate products of polyphosphoinositide cleavage by phospholipase C. Physiological effects in permeabilized platelets and Limulus photoreceptor cells. J. Biol. Chem., 260; 13496-13501, 1985.
– reference: 54) Steer, M. L. and Wood, A.: Regulation of human platelet adenylate cyclase by epinephrine, prostaglandin E1, and guanine nucleotides. J. Biol. Chem., 254; 10791-10797, 1979.
– reference: 15) Brass, L. F.: Ca2+ transport across the plasma membrane. A role for membrane glycoprotein IIb and IIIa. J. Biol. Chem., 260; 2231-2236, 1985.
– reference: 32) Yamaguchi, A., Suzuki, H., Tanoue, K. and Yamazaki, H.: Simple method of aequorin loading into platelets using dimethyl sulfoxide. Thromb. Res., 44; 165-174, 1986.
– reference: 28) Doyle, V. M. and Rüegg, U. T.: Lack of evidence for voltage dependent calcium channels on platelets. Biochem. Biophys. Res. Commun., 127; 161-167, 1985.
– reference: 27) Ware, J. A., Johnson, P. C., Smith, M. and Salzman, E. W.: Aequorin detects increased cytoplasmic calcium in platelets stimulated with phorbol ester or diacylglycerol. Biochem. Biophys. Res. Commun., 133; 98-104, 1985.
– reference: 47) Volpe, P., Krause, K. -H., Hashimoto, S., Zorzato, F., Pozzan, T., Meldolesi, J. and Lew, D. P.: “Calciosome”, a cytoplasmic organelle: the inositol 1, 4, 5-triphosphatesensitive Ca2+ store of nonmuscle cells? Proc. Natl. Acad. Sci. USA, 85; 1091-1095, 1988.
– reference: 46) Irvine, R. F.: How do inositol 1, 4, 5-triphosphate and inositol 1, 3, 4, 5-tetrakisphosphate regulate intracellular Ca2+? Biochem. Soc. Transact., 17; 6-9, 1989.
– reference: 53) Jacobs, K. H., Bauer, S. and Watanabe, Y.: Modulation of adenylate cyclase of human platelets by phorbol ester. Impairment of the hormone-sensitive inhibitory pathway. Eur. J. Biochem., 151; 425-430, 1985.
– reference: 50) Billah, M. M., Lapetina, E. G. and Cuatrecases, P: Phosphatidylinositol specific phospholipase C of platelets: association with 1, 2-diacylglycerol kinase and inhibition by cyclic AMP. Biochem. Biophys. Res. Commun., 90; 92-98, 1979.
– reference: 9) Brass, L. F., Shattil, S. J., Kunicki, T. J. and Bennett, J. S.: Effect of calcium on the stability of the platelet membrane glycoprotein IIb-IIIa complex. J. Biol. Chem., 260; 7875-7881, 1985.
– reference: 16) Dean, W. L.: Purification and reconstitution of Ca2+ pump from human platelets. J. Biol. Chem., 259; 7343-7348, 1984.
– reference: 21) Rink, T. J., Smith, S. W. and Tsien, R. Y.: Cytoplasmic free Ca2+ in human platelets: Ca2+ thresholds and Ca-independent activation for shape change and secretion. FEBS Lett., 148; 21-26, 1982.
– reference: 2) Gerrard, J. M., Peterson, D. A. and White, J. G.: Calcium mobilization. In: Platelet in Biology and Pathology 2, edited by Gordon, J. L., Amsterdam: Elsevier, 1981, p. 407-436.
– reference: 10) Brass, L. F.: Ca2+ homeostasis in unstimulated platelets. J. Biol. Chem., 259; 12563-12570, 1984.
– reference: 51) DeChaffoy de Courcelles, D., Roevens, P. and Van Belle, H.: Prostaglandin E1 and forskolin antagonize C-kinase activation in the human platelet. Biochem. J., 244; 93-99, 1987.
– reference: 18) Käser-Glanzman, R., Gerber, E. and Lüscher, E. F.: Regulation of the intracellular calcium levels in human blood platelets: cyclic adenosine 3′, 5′-monophosphate dependent phosphorylation of a 22,000 dalton component in isolated Ca2+-accumulating vesicles. Biochim. Biophys. Acta, 558; 344-347, 1979.
– reference: 37) Haslam, R. J.: Signal transduction in platelet activation. ed. by Verstraete, M. et al. In. Thrombosis and Haemostasis. Leuven, Leuven University Press, 1987, p. 147-174.
– reference: 14) Proudouz, K. N., Poindexter, B. J. and Fratantoni, J. C.: Ouabain affects platelet reactivity as measured in vitro. Thromb. Res., 46; 337-346, 1987.
– reference: 52) Ware, J. A., Smith, M. and Salzman, E. W.: Synergism of platelet-aggregating agents. Role of elevation of cytoplasmic calcium. J. Clin. Invest., 80; 267-271, 1987.
– reference: 38) Serhan, C., Anderson, P., Goodman, E., Dunham, P. and Weissmann, G.: Phosphatidate and oxidized fatty acids are calcium ionophores. Studies employing arsenazo III in liposomes. J. Biol. Chem., 256; 2736-2741, 1981.
– reference: 4) Brass, L. F. and Shattil, S. J.: Changes in surface-bound and exchangeable calcium during platelet activation. J. Biol. Chem., 257; 14000-14005, 1982.
– reference: 39) Sundler, R., Düzgünes, N. and Papahadjopoulos, D.: Control of membrane fusion by phospholipid head groups. II. The role of phosphatidylethanolamine in mixtures with phosphatidate and phosphatidylinositol. Biochim. Biophys. Acta, 649; 751-758, 1981.
– reference: 23) Jy, W. and Haynes, D. H.: Thrombin-induced calcium movements in platelet activation. Biochim. Biophys. Acta, 929; 88-102, 1987.
– reference: 12) Rengasamy, A., Soura, S. and Feinberg, H.: Platelet Ca2+ homeostasis: Na+-Ca2+ exchange in plasma membrane vesicles. Thromb. Haemost., 57; 337-340, 1987.
– reference: 40) Benton, A. M., Gerrard, J. M., Michiel, T. and Kindom, S. E.: Are lysophosphatidic acids or phosphatidic acids involved in stimulus activation coupling in platelets. Blood, 60; 642-649, 1982.
– reference: 8) Poncz, M., Eisman, R., Heidenreich, R., Silver, S. M., Vilaire, G., Surrey, S., Schwartz, E. and Benett, J. S.: Structure of the platelet membrane glycoprotein IIb. J. Biol. Chem., 262; 8476-8482, 1987.
– reference: 49) O'Rourke, F. A., Halenda, S. P., Zavoico, G. B. and Feinstein, M. B.: Inositol 1, 4, 5-triphosphate releases Ca2+ from a Ca2+-transporting membrane vesicle fraction derived from human platelet. J. Biol. Chem., 260; 956-962, 1985.
– reference: 34) Rink, T. J., Sanchez, J. A. and Hallam, T. J.: Diacylglycerol and phorbol ester stimulate secretion without raising cytoplasmic free calcium in human platelets. Nature, 305; 317-319, 1983.
– reference: 25) Irvine, R. F. and Moor, R. M.: Micro-injection of inositol 1, 3, 4, 5-tetrakisphosphate activates sea urchin egg by a mechanism dependent on external Ca2+. Biochem. J., 240; 917-920, 1986.
– reference: 6) Fujimura, K. and Phillips, D. R.: Calcium cation regulation of glycoprotein IIb-IIIa complex formation in platelet plasma membranes. J. Biol. Chem., 258; 10247-10252, 1983.
– reference: 1) Rink, T. J., Smith, S. W. and Tsien, R. Y.: Cytoplasmic free Ca2+ in human platelets: Ca2+ thresholds and Ca-independent activation for shape change and secretion. FEBS Lett., 148; 21-26, 1982.
– reference: 13) Brass, L. F.: The effect of Na+ on Ca2+ homeostasis in unstimulated platelets. J. Biol. Chem., 259; 12571-12575, 1984.
– reference: 48) Zavoico, G. B. and Feinstein, M. B.: Cytoplasmic calcium in platelet is controlled by cyclic AMP: antagonism between stimulators and inhibitors of adenylate cyclase. Biochem. Biophys. Res. Commun., 120; 579-585, 1984.
– reference: 35) Ware, J. A., Smith, M., Fossel, E. T. and Salzman, E. W.: Cytoplasmic Mg2+ concentration in platelets: implication for determination of Ca2+ with aequorin. Am. J. Physiol., 255; H855-H859, 1988.
– reference: 29) Tsien, R. Y., Pozzan, T. and Rink, T. J.: Calcium homeostasis in intact lymphocyte: cytoplasmic free calcium monitored with a new intracellularly trapped fluorescent indicator. J. Cell Biol., 94; 325-334, 1982.
– reference: 43) Majerus, P. W., Connolly, T. M., Bansal, U. S., Inhorn, R. C., Ross, T. S. and Lips, D. L.: Inositol phosphates: synthesis and degradation. J. Biol. Chem., 263; 3051-3054, 1988.
– reference: 17) Hack, N., Croset, M. and Crawford, N.: Studies on the bivalent-cation activated ATPase activities of highly purified human platelet surface and intracellular membranes. Biochem. J., 233; 661-668, 1986.
– reference: 3) Brass, L. F. and Shattil, S. J.: Identification and function of the high affinity binding sites for Ca2+ on the surface of platelets. J. Clin. Invest., 73; 626-632, 1984.
– reference: 24) Sage, S. O. and Rink, T. J.: Kinetic differences between thrombin-induced and ADP-induced calcium influx and release from internal stores in fura-2-loaded human platelets. Biochem. Biophys. Res. Commun., 136; 1124-1129, 1986.
– reference: 19) Fisher, T. H. and White II, G. C.: Partial purification and characterization of thrombolamban, a 22,000 dalton cAMP-dependent protein kinase substrate in platelets. Biochem. Biophys. Res. Commun., 149; 700-706, 1987.
– reference: 30) Johnson, P. C., Ware, J. A., Cliveden, P. B., Smith, M., Dvorak, A. M. and Salzman, E. W.: Measurement of ionized calcium in blood platelets with the photoprotein aequorin. Comparison with quin 2. J. Biol. Chem., 260; 2069-2076, 1985.
– reference: 42) Nishizuka, Y.: The role of protein kinase C in cell surface signal transduction and tumor promotion. Nature, 308; 693-698, 1984.
– reference: 22) Pollock, W. K. and Rink, T. J.: Thrombin and ionomycin can rise platelet cytoplasmic Ca2+ to micromolar levels by discharge of internal Ca2+ stores: studies using fura-2. Biochem. Biophys. Res. Commun., 139; 308-314, 1986.
– reference: 41) Gerrard, J. M., Peterson, D. A. and White, J. G.: Lysophosphatidic acids influence on platelet aggregation and intracellular calcium flux. Am. J. Physiol., 96; 423-438, 1979.
– reference: 11) Steiner, B. and Lüscher, E. F.: Evidence that the platelet plasma membrane does not contain a (Ca2++Mg2+)-dependent ATPase. Biochim. Biophys. Acta, 818; 299-309, 1985.
– reference: 31) Grynkiewicz, G., Poenie, M. and Tsien, R. Y.: A new generation of Ca2+ indicators with greatly improved fluorescence properties. J. Biol. Chem., 260; 3440-3450, 1985.
– reference: 44) Brass, L. and Joseph, S. K.: A role for inositol triphosphate in intracellular Ca2+ mobilization and granule secretion in platelets. J. Biol. Chem., 260; 15172-15179, 1985.
– reference: 20) Yoshida, K. -I. and Nachmias, V. T.: Phorbol ester stimulates calcium sequestration in saponinized human platelets. J. Biol. Chem., 262; 16048-16054, 1987.
– reference: 5) Bennett, J. S., Hoxie, J. A., Leitman, S. F., Vilaire, G. and Cines, D. B.: Inhibition of fibrinogen binding to stimulated human platelets by monoclonal antibody. Proc. Natl. Acad. Sci. USA, 80; 2417-2421, 1983.
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