Platelet membrane lipid fluidity and intraplatelet calcium mobilization in type 2 diabetes mellitus

: The aim of the present study was to relate the impairments in calcium mobilization and/or release to the altered membrane dynamics in platelets from patients with type 2 diabetes mellitus. Higher expression of P‐selectin (1.4‐fold, NS) and the reduction in GPIbα expression (by 27.8 ± 16.7%, p <...

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Published in:European journal of haematology 1998-11, Vol.61 (5), p.319-326
Main Authors: Watala, Cezary, Boncer, Magdalena, Golański, Jacek, Koziołkiewicz, Wiktor, Trojanowski, Zygmunt, Walkowiak, Bogdan
Format: Article
Language:English
Subjects:
Adult
Biological and medical sciences
Blood Platelets - metabolism
Blood Platelets - ultrastructure
Calcium - blood
calcium release
Cell Membrane - chemistry
Cell Membrane - metabolism
diabetes mellitus
Diabetes Mellitus, Type 2 - blood
Diabetes. Impaired glucose tolerance
Endocrine pancreas. Apud cells (diseases)
Endocrinopathies
Etiopathogenesis. Screening. Investigations. Target tissue resistance
Female
Humans
Lipids - blood
Lipids - chemistry
Male
Medical sciences
Membrane Fluidity
membrane lipid fluidity
Middle Aged
P-selectin
platelet activation
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Summary:: The aim of the present study was to relate the impairments in calcium mobilization and/or release to the altered membrane dynamics in platelets from patients with type 2 diabetes mellitus. Higher expression of P‐selectin (1.4‐fold, NS) and the reduction in GPIbα expression (by 27.8 ± 16.7%, p < 0.0002), as well as the increased fractions of platelet microparticles (p < 0.03), reflected more intensified platelet release reaction in diabetic platelets. Overall, diabetic platelets appeared more vulnerable to stimuli facilitating calcium mobilization (by 41%, p < 0.01) and less susceptible to preventive effects of the agents hampering calcium release from intraplatelet storage pools (by 38%, p < 0.01). Both the increased calcium mobilization from intraplatelet storage pools and higher levels of intracellular free calcium in the presence of procaine in diabetic platelets correlated with the reduced platelet membrane lipid fluidity (resp. pR < 0.03 and pR < 0.015). We conclude that the biophysical state of platelet membrane components in diabetes mellitus is the crucial determinant of platelet hyperfunction and probably contributes to the intensified calcium mobilization in diabetic platelets. The depressed preventive effects of procaine on platelet release reaction and calcium mobilization in diabetic platelets may result from the primary dislocations and/or distortions of membrane components caused by the diabetic state.
ISSN:0902-4441
1600-0609
DOI:10.1111/j.1600-0609.1998.tb01095.x