蛋白激酶C激活人血小板中的非容量性钙内流。
Protein kinase C activates non-capacitative calcium entry in human platelets.
作者信息
Rosado J A, Sage S O
机构信息
Department of Physiology, University of Cambridge, Downing Street, Cambridge CB2 3EG, UK.
出版信息
J Physiol. 2000 Nov 15;529 Pt 1(Pt 1):159-69. doi: 10.1111/j.1469-7793.2000.00159.x.
Abstract
- In many non-excitable cells Ca2+ influx is mainly controlled by the filling state of the intracellular Ca2+ stores. It has been suggested that this store-mediated or capacitative Ca2+ entry is brought about by a physical and reversible coupling of the endoplasmic reticulum with the plasma membrane. Here we provide evidence for an additional, non-capacitative Ca2+ entry mechanism in human platelets. 2. Changes in cytosolic Ca2+ and Sr2+ were measured in human platelets loaded with the fluorescent indicator fura-2. 3. Depletion of the internal Ca2+ stores with thapsigargin plus a low concentration of ionomycin stimulated store-mediated cation entry, as demonstrated upon Ca2+ or Sr2+ addition. Subsequent treatment with thrombin stimulated further divalent cation entry in a concentration-dependent manner. 4. Direct activation of protein kinase C (PKC) by phorbol-12-myristate-13-acetate or 1-oleoyl-2-acetyl-sn-glycerol also stimulated divalent cation entry, without evoking the release of Ca2+ from intracellular stores. Cation entry evoked by thrombin or activators of PKC was abolished by the PKC inhibitor Ro-31-8220. 5. Unlike store-mediated Ca2+ entry, jasplakinolide, which reorganises actin filaments into a tight cortical layer adjacent to the plasma membrane, did not inhibit divalent cation influx evoked by thrombin when applied after Ca2+ store depletion, or by activators of PKC. Thrombin also activated Ca2+ entry in platelets in which the release from intracellular stores and store-mediated Ca2+ entry were blocked by xestospongin C. 6. These results indicate that the non-capacitative divalent cation entry pathway is regulated independently of store-mediated entry and does not require coupling of the endoplasmic reticulum and the plasma membrane. These results support the existence of a mechanism for receptor-evoked Ca2+ entry in human platelets that is independent of Ca2+ store depletion. This Ca2+ entry mechanism may be activated by occupation of G-protein-coupled receptors, which activate PKC, or by direct activation of PKC, thus generating non-capacitative Ca2+ entry alongside that evoked following the release of Ca2+ from the intracellular stores.
摘要
- 在许多非兴奋性细胞中,Ca2+内流主要受细胞内Ca2+储存库的充盈状态控制。有人提出,这种储存介导的或容量性Ca2+内流是由内质网与质膜的物理性和可逆性偶联引起的。在此,我们提供证据表明人类血小板中存在另一种非容量性Ca2+内流机制。2. 用荧光指示剂fura-2加载的人类血小板中测量了胞质Ca2+和Sr2+的变化。3. 毒胡萝卜素加低浓度离子霉素耗尽细胞内Ca2+储存库刺激了储存介导的阳离子内流,如添加Ca2+或Sr2+时所示。随后用凝血酶处理以浓度依赖的方式刺激了进一步的二价阳离子内流。4. 佛波醇-12-肉豆蔻酸酯-13-乙酸酯或1-油酰基-2-乙酰基-sn-甘油直接激活蛋白激酶C(PKC)也刺激了二价阳离子内流,而不会引起细胞内储存库中Ca2+的释放。凝血酶或PKC激活剂引起的阳离子内流被PKC抑制剂Ro-31-8220消除。5. 与储存介导的Ca2+内流不同,茉莉酸丙酯将肌动蛋白丝重新组织成紧邻质膜的紧密皮质层,在Ca2+储存库耗尽后应用时,它不会抑制凝血酶引起的二价阳离子内流,也不会抑制PKC激活剂引起的二价阳离子内流。凝血酶也激活了血小板中的Ca2+内流,在这些血小板中,细胞内储存库的释放和储存介导的Ca2+内流被西司他丁C阻断。6. 这些结果表明,非容量性二价阳离子内流途径的调节独立于储存介导的内流,并且不需要内质网和质膜的偶联。这些结果支持人类血小板中存在一种受体诱发的Ca2+内流机制,该机制独立于Ca2+储存库的耗尽。这种Ca2+内流机制可能通过占据激活PKC的G蛋白偶联受体或直接激活PKC而被激活,从而在细胞内储存库中Ca2+释放后诱发的Ca2+内流之外产生非容量性Ca2+内流。
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