在T淋巴细胞中,益康唑介导的对钙释放激活钙电流(Icrac)的阻断作用的细胞外位点。
Extracellular site for econazole-mediated block of Ca2+ release-activated Ca2+ current (Icrac) in T lymphocytes.
作者信息
Christian E P, Spence K T, Togo J A, Dargis P G, Warawa E
机构信息
Department of Pharmacology, Zeneca Pharmaceuticals, Wilmington, Delaware 19850-5437, USA.
出版信息
Br J Pharmacol. 1996 Oct;119(4):647-54. doi: 10.1111/j.1476-5381.1996.tb15722.x.
Abstract
- Standard whole cell patch clamp recording techniques were used to study the pharmacological characteristics and site of econazole-mediated inhibition of calcium release-activated calcium current (Icrac) in the human leukaemic T cell line, Jurkat. 2. Extracellularly applied econazole blocked Icrac in a concentration-dependent manner (IC50 approximately 14 microM). Block developed over a relatively slow timecourse of 30-60 s (10 microM), and only partially reversed over minutes. 3. Econazole dialysed from the pipette into the cytosol at concentrations ranging from 0.1 to 30 microM did not reduce Icrac, or quantitatively affect Icrac block by extracellularly applied econazole. 4. A less lipophilic quaternary iodide derivative of econazole was synthesized to retard absorption through the cell membrane. When applied extracellularly, this compound blocked Icrac in a concentration-dependent manner with onset kinetics comparable to econazole. 5. Results with intracellularly dialysed econazole and the quaternary econazole derivative provide convergent evidence that econazole blocks Icrac via an extracellular interaction. 6. The inability of intracellularly applied econazole to inhibit Icrac argues against the notion that econazole inhibits capacitative Ca2+ entry pathways secondary to its known inhibitory effects on cytochrome P-450.
摘要
- 采用标准的全细胞膜片钳记录技术,研究了酮康唑对人白血病T细胞系Jurkat中钙释放激活钙电流(Icrac)的药理特性及作用位点。2. 细胞外应用酮康唑以浓度依赖方式阻断Icrac(IC50约为14μM)。阻断作用在30 - 60秒(10μM)的相对缓慢时间进程中发展,且仅在数分钟内部分逆转。3. 从移液管透析到胞质溶胶中的酮康唑浓度范围为0.1至30μM时,不会降低Icrac,也不会对细胞外应用酮康唑对Icrac的阻断产生定量影响。4. 合成了一种亲脂性较低的酮康唑季铵碘化物衍生物,以延缓其通过细胞膜的吸收。细胞外应用时,该化合物以浓度依赖方式阻断Icrac,起始动力学与酮康唑相当。5. 细胞内透析酮康唑和酮康唑季铵衍生物的结果提供了一致的证据,表明酮康唑通过细胞外相互作用阻断Icrac。6. 细胞内应用酮康唑无法抑制Icrac,这与酮康唑因其对细胞色素P - 450的已知抑制作用而抑制容量性Ca2 + 内流途径的观点相悖。
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