Insights into the Mechanism of Platelet Action through Studies at pH 5.3.

E. H Mürer; G. J Stewart

doi:10.1055/s-0038-1651920

Thrombosis and Haemostasis, Inhaltsverzeichnis

Thromb Haemost 1977; 38(04): 1018-1029
DOI: 10.1055/s-0038-1651920

Original Article

Schattauer GmbH

Insights into the Mechanism of Platelet Action through Studies at pH 5.3.

E. H Mürer

¹Center for Specialized Thrombosis Research, Temple University Medical School, Philadelphia, Pa. 19140, U.S.A.

,

G. J Stewart

¹Center for Specialized Thrombosis Research, Temple University Medical School, Philadelphia, Pa. 19140, U.S.A.

› Institutsangaben

Abstract

Summary

Incubation of washed human platelets at pH 5.3 at 37° C induces a slow secretion of stored compounds. The secretion is 60% inhibited by metabolic inhibitors and blocked at 0° C. The major changes in the metabolic adenine nucleotide levels in the platelets precede the secretion, which is accompanied by a drop in ADP and an increase in inosine and hypoxanthine. The incubation does not lead to significantly increased loss in cytoplasmic compounds from the platelets.

Ultrastructural changes which accompany pH 5.3-induced secretion include a coalescence of cytoplasmic material in the center and a decrease in densely stained material in the periphery of the platelet. These changes are only seen by prolonged incubation (60 min). In the presence of 2 mM fluoride similar changes are seen after 3 min incubation. Other changes induced by fluoride, i. e. the formation of swollen areas in the periphery of the platelet are not induced by incubation at pH 5.3 alone.

The metabolic changes seen by incubation at pH 5.3 are to a great degree reversible, even when secretion has been induced. Although secretion cannot be induced by incubation of platelets at pH 7.6 alone, pH 5.3-induced secretion continues at the higher pH. Whereas incubation at pH 5.3 in the cold does not induce secretion, incubation with 2 mM fluoride under these conditions will result in at least 50% secretion of stored compounds when pH and temperature are increased, indicating that fluoride has been taken up by the platelet by passive diffusion. This concentration of fluoride is below the threshold for induction of secretion at pH 7.6.

In contrast to secretion induced by thrombin, and in agreement with the findings with fluoride, the calcium ionophore A 23187 is equally effective as inducer of secretion at pH 5.3 and at pH 7.6. This also agrees with the findings that when secretion has been “initiated” in the cold with thrombin at pH 7.4, the extrusion which takes place at higher temperature has a shift in pH optimum towards the acid pH and is only partially inhibited at pH 5.5, while the action of agents which effect platelet secretion from the outside, including added Ca⁺⁺, is blocked below pH 6, and the induction effect of thrombin below pH 6.5.

We propose that the agents which cause secretion at low pH have a direct intracellular effect, probably on the level of cytoplasmic Ca⁺⁺, while the agents which are inhibited by the low pH act indirectly via external membrane sites.

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Referenzen

References
1 Bergey J. 1975. The fluoride induced contraction of vascular smooth muscle. Doctoral Thesis Department of Pharmacology, Temple University Health Sciences Center; Philadelphia, PA.:
2 Feinman R. D, Detwiler T. C. 1974; Platelet secretion induced by divalent cation ionophores. Nature 249: 172.
3 Holmsen H. 1974. Are platelet shape change, aggregation, and release reaction tangible manifestations of one basic platelet function?. In: Baudini M. G, Ebbe S. (eds.) Platelets. Production, function, transfusion and storage. Grune and Stratton; New York: 207.
4 Holmsen H. 1975; Biochemistry of the platelet release reaction. In: Biochemistry and Pharmacology of Platelets. Ciba Foundation Symposium 35 new series 175.
5 Holmsen H, Weiss H. J. 1970; Hereditary defect in the platelet release reaction caused by a deficiency in the storage pool of platelet adenine nucleotides. British Journal of Haematology 19: 643.
6 Holmsen H, Setkowsky C. A, Lages B, Day H. J, Weiss H. J, ScRurroN M. C. 1975; Content and thrombin-induced release of acid hydrolases in gel-filtered platelets from patients with storage pool disease. Blood 46: 131.
7 LeBreton G. C, Dinerstein R. J, Roth L. J, Feinberg H. 1976; Direct evidence for intracellular divalent cation redistribution associated with platelet shape change. Biochemical and Biophysical Research Communications 71: 362.
8 Massini P, Lüscher E. F. 1974; Some effects of ionophores for divalent cations on blood platelets. Comparison with the effects of thrombin. Biochimica et biophysica acta 372: 109.
9 Mills D. C. B. 1973; Changes in the adenylate energy charge in human blood platelets induced by adenosine diphosphate. Nature New Biology 243: 220.
10 Mürer E. H. 1972; Factors influencing the initiation and the extrusion phase of the platelet release reaction. Biochimica et biophysica acta 261: 435.
11 Murer E. H. 1976; Effects of fluoride on blood platelets (an overview). Fluoride 9: 173.
12 Mürer E. H, Day H. J, Lieberman J. E. 1974; Metabolic aspects of the secretion of stored compounds from blood platelets. III. Effect of NaF on washed platelets. Biochimica et biophysica acta 362: 266.
13 Mürer E. H, Day H. J. 1975. Inorganic ions as release inducers: What they can tell us about platelet functions. In: Ulutin O. N. (ed.) Platelets. International Congress Series 357. Exerpta Medica; Amsterdam: 178.
14 Mürer E. H, Stewart G. J, Rausch M. A, Day H. J. 1975; Calcium ionophore A 23187 (Eli Lilly). Effect on platelet function, structure and metabolism. Thrombosis et Diathesis Haemorrhagica 34: 72.
15 Mürer E. J, Davenport K, Rausch M. A, Day H. J. 1976; Metabolic aspects of the secretion of stored compounds from blood platelets. V. Effect of ionophore A 23187 on washed platelets. Biochimica et biophysica acta 451: 1.
16 Niewiarowski S, Lowery C.T, Hawiger J, Timmons S. J. 1976; Immunoassay of human platelet factor 4 (PF₄, antiheparinfactor) by radial immunodiffusion. Journal of Laboratory and Clinical Medicine 87: 720.
17 Wörner P, Brossmer R. 1975; Platelet aggregation and the release reaction induced by ionophores for divalent cations. Thrombosis Research 6: 295.