大鼠胰腺β细胞中的ATP敏感性钾通道:ATP和Mg2+离子的调节作用
ATP-sensitive K+ channels in rat pancreatic beta-cells: modulation by ATP and Mg2+ ions.
作者信息
Ashcroft F M, Kakei M
机构信息
University Laboratory of Physiology, Oxford.
出版信息
J Physiol. 1989 Sep;416:349-67. doi: 10.1113/jphysiol.1989.sp017765.
Abstract
- The inside-out configuration of the patch-clamp method was used to study the effects of MgATP, free ATP and Mg2+ on single ATP-sensitive K+ channel currents in rat pancreatic beta-cells. 2. Magnesium ions caused a marked reduction of channel activity: 5 mM-free Mg2+ produced a 50% reduction in the activity of inward currents recorded at -60 mV in symmetrical K+ concentrations. 3. Inhibition of channel activity by MgATP does not involve phosphorylation as both free ATP (i.e. ATP in the absence of divalent cations) and non-hydrolysable ATP analogues were effective inhibitors. 4. Magnesium ions produced a striking reduction in the ability of ATP (total) to inhibit channel activity. When channel activity was plotted as a function of the total ATP concentration, the Ki for channel inhibition was 4 microM in Mg2(+)-free solution, compared to a Ki of 26 microM in the presence of 2 mM-Mg2+. The shape of the relationship between channel activity and the total ATP concentration was not changed by Mg2+. When channel activity was plotted as a function of the free ATP concentration, however, Mg2+ had little effect on Ki. This suggests that free ATP is the more potent inhibitor of channel activity and that MgATP has little inhibitory effect. 5. ATP analogues that dissociate only as far as the tribasic form were also able to inhibit channel activity. This suggests that both ATP4- and ATPH3- can block the channel. 6. Like ATP, ADP was more effective at inhibiting channel activity in the absence of Mg2+, that is as the free base. The non-hydrolysable ATP analogues AMP-PNP and AMP-PCP, however, were more effective in the presence of Mg2+. 7. It is suggested that (1) the potency of inhibition is related to the amount of negative charge carried by the ion and (2) the intracellular concentration of free ATP will be an important modulator of channel activity in the intact beta-cell.
摘要
- 采用膜片钳技术的外向式配置,研究MgATP、游离ATP和Mg²⁺对大鼠胰腺β细胞中单个ATP敏感性钾通道电流的影响。2. 镁离子导致通道活性显著降低:在对称钾离子浓度下,5 mM游离Mg²⁺使在-60 mV记录的内向电流活性降低50%。3. MgATP对通道活性的抑制不涉及磷酸化,因为游离ATP(即不存在二价阳离子时的ATP)和不可水解的ATP类似物都是有效的抑制剂。4. 镁离子使ATP(总量)抑制通道活性的能力显著降低。当将通道活性绘制为总ATP浓度的函数时,在无Mg²⁺溶液中通道抑制的Ki为4 μM,而在存在2 mM Mg²⁺时Ki为26 μM。Mg²⁺未改变通道活性与总ATP浓度之间关系的形状。然而,当将通道活性绘制为游离ATP浓度的函数时,Mg²⁺对Ki影响很小。这表明游离ATP是更有效的通道活性抑制剂,而MgATP几乎没有抑制作用。5. 仅解离至三碱基形式的ATP类似物也能够抑制通道活性。这表明ATP⁴⁻和ATPH³⁻都可以阻断该通道。6. 与ATP一样,ADP在无Mg²⁺时(即作为游离碱)更有效地抑制通道活性。然而,不可水解的ATP类似物AMP-PNP和AMP-PCP在有Mg²⁺时更有效。7. 有人提出:(1)抑制效力与离子携带的负电荷量有关;(2)完整β细胞中游离ATP的细胞内浓度将是通道活性的重要调节因子。
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