Effect of PLC on rabbit and human platelet actin polymerization induced by ADP
- VernacularTitle:磷脂酶C对ADP诱导的兔、人血小板肌动蛋白聚合的抑制作用
- Author:
Changgao WANG
;
Fang YANG
;
Xin GAN
;
Mingkai CHEN
;
Tao CHEN
- Publication Type:Journal Article
- Keywords:
PLC;
platelet actin;
inhibition;
anti-aggregation to platelet
- From:
Chinese Pharmacological Bulletin
2003;0(07):-
- CountryChina
- Language:Chinese
-
Abstract:
Aim To study the effect of PLC on rabbit and human platelet actin polymerization, and then to explore the mechanism of PLC anti-aggregation to platelet. Methods Platelets of rabbit and human were treated with PSS, ASA and different doses of PLC respectively and then were extracted by Triton abstraction. The relative concentration of actin of differently treated platelets induced by ADP was determined by SDS-PAGE and spectrophotometre. Results For rabbit platelets were treated with PSS, the relative concentration of actin determined at static state was 1.682?0.319; when the platelets were treated with ASA 668 ?mol?L -1,PLC 5,10,15,20 and 25 U?ml -1, the relative concentration of actin determined at activated state induced by ADP was 2.450?0.562,1.089?0.322,1.727?0.442,1.450?0.324,1.161?0.306, 0.857?0.242 and 0.692?0.187 respectively. Compared with PSS, inhibition rates (%) of ASA 668 ?mol?L -1, PLC 5, 10, 15, 20, 25 U?ml -1 to the relative concentration of actin were 55.55,29.51, 40.82,52.61, 65.02,71.76 respectively.For human platelets were treated with PSS, the relative concentration of actin determined at static state was 1.358?0.376; when the platelets were treated with ASA 668 ?mol?L -1,PLC 5,10,15,20 and 25 U?ml -1, the relative concentration of actin determined at activated state induced by ADP was 2.445?0.750, 1.096?0.344, 1.705?0.507,1.437?0.416, 1.165?0.355, 0.845?0.257 and 0.679?0.198 respectively. Compared with PSS, inhibition rates (%) of ASA 668 ?mol?L -1, PLC 5, 10, 15, 20, 25 U?ml -1 to the relative concentration of actin were 55.17,30.27, 41.23,52.35, 65.44, 72.23 respectively. Conclusion PLC has significant effects on actin polymerization of rabbit and healthy human platelets (P
