Department of Physiology, Development & Neuroscience, University of Cambridge, Cambridge CB23EG, UK.
Platelets. 2010;21(6):445-50. doi: 10.3109/09537104.2010.483295.
Platelet activation is critically regulated by an increase in intracellular calcium concentration (Ca2+). Although Ca2+ release from intracellular Ca2+ stores and subsequent store-operated Ca2+ entry are often thought to be the major contributors to increases in Ca2+ evoked by most agonists, high concentrations of thrombin activate a Ca2+ entry pathway that is independent of Ca2+ store depletion (known as 'non-capacitative cation entry'-NCCE). The channel that conducts NCCE has not previously been clearly identified, and the mechanisms that regulate its activation are also unknown. Here we have investigated NCCE using fura-2-loaded human platelets. To investigate NCCE independently of other Ca2+ signaling pathways, the intracellular Ca2+ stores were first rapidly depleted in the absence of extracellular Ca2+. Sr2+ was then added to monitor maximal store-operated cation influx. Thrombin was then added to stimulate NCCE. Flufenamic acid, which inhibits Ca2+ entry through most TRPC isoforms, but potentiates entry through TRPC6, was found to block store-operated cation entry. In contrast, thrombin-induced NCCE was increased, suggesting the possible involvement of TRPC6. Since TRPC6 is regulated by Src family tyrosine kinases in some cells, we investigated the possible role of this kinase family in NCCE. PP2, a Src family tyrosine kinase inhibitor, completely abolished thrombin-induced NCCE. Furthermore, NCCE was enhanced by phenylarsine oxide and could be directly induced by vanadyl hydroperoxide, both tyrosine phosphatase inhibitors. These data indicate that Src family tyrosine kinase activation is a required step in NCCE activation. In conclusion NCCE may be an important regulator of platelet activation when local thrombin concentrations are high.
血小板的激活受到细胞内钙离子浓度(Ca2+)增加的严格调控。虽然细胞内钙库释放 Ca2+和随后的钙库操纵性 Ca2+内流通常被认为是大多数激动剂引起Ca2+增加的主要贡献者,但高浓度的凝血酶激活了一种不依赖于钙库耗竭的 Ca2+内流途径(称为“非电容性阳离子内流”-NCCE)。目前尚未明确 NCCE 所涉及的通道,其激活的调节机制也尚不清楚。在这里,我们使用负载 fura-2 的人血小板研究了 NCCE。为了在不依赖其他 Ca2+信号通路的情况下研究 NCCE,首先在不存在细胞外 Ca2+的情况下快速耗尽细胞内钙库。然后加入 Sr2+来监测最大的钙库操纵性阳离子内流。然后加入凝血酶来刺激 NCCE。氟芬那酸可抑制大多数 TRPC 同工型的 Ca2+内流,但增强 TRPC6 的内流,发现其可阻断钙库操纵性阳离子内流。相比之下,凝血酶诱导的 NCCE 增加,表明可能涉及 TRPC6。由于 TRPC6 在某些细胞中受Src 家族酪氨酸激酶调节,因此我们研究了该激酶家族在 NCCE 中的可能作用。Src 家族酪氨酸激酶抑制剂 PP2 完全消除了凝血酶诱导的 NCCE。此外,苯砷氧化物增强了 NCCE,并且可直接由过钒氧自由基诱导,而过钒氧自由基是酪氨酸磷酸酶抑制剂。这些数据表明 Src 家族酪氨酸激酶的激活是 NCCE 激活所必需的步骤。总之,当局部凝血酶浓度较高时,NCCE 可能是血小板激活的重要调节剂。
