环磷酸腺苷(cAMP)和电压对家兔窦房结起搏(f)通道的双重变构调节
Dual allosteric modulation of pacemaker (f) channels by cAMP and voltage in rabbit SA node.
作者信息
DiFrancesco D
机构信息
Università di Milano, Dipartimento di Fisiologia e Biochimica Generali, via Celoria 26, 20133 Milano, Italy.
出版信息
J Physiol. 1999 Mar 1;515 ( Pt 2)(Pt 2):367-76. doi: 10.1111/j.1469-7793.1999.367ac.x.
Abstract
- A Monod-Whyman-Changeux (MWC) allosteric reaction model was used in the attempt to describe the dual activation of 'pacemaker' f-channel gating subunits by voltage hyperpolarization and cyclic nucleotides. Whole-channel kinetics were described by assuming that channels are composed of two identical subunits gated independently according to the Hodgkin-Huxley (HH) equations. 2. The simple assumption that cAMP binding favours open channels was found to readily explain induction of depolarizing voltage shifts of open probability with a sigmoidal dependence on agonist concentration. 3. Voltage shifts of open probability were measured against cAMP concentration in macropatches of sino-atrial (SA) node cells; model fitting of dose-response relations yielded dissociation constants of 0.0732 and 0.4192 microM for cAMP binding to open and closed channels, respectively. The allosteric model correctly predicted the modification of the pacemaker current (If) time constant curve induced by 10 microM cAMP (13.7 mV depolarizing shift). 4. cAMP shifted deactivation more than activation rate constant curves, according to sigmoidal dose-response relations (maximal shifts of +22.3 and +13.4 mV at 10 microM cAMP, respectively); this feature was fully accounted for by allosteric interactions, and indicated that cAMP acts primarily by 'locking' f-channels in the open configuration. 5. These results provide an interpretation of the dual voltage- and cyclic nucleotide- dependence of f-channel activation.
摘要
- 尝试使用莫诺德-怀曼-尚热(MWC)变构反应模型来描述电压超极化和环核苷酸对“起搏”f通道门控亚基的双重激活。通过假设通道由两个根据霍奇金-赫胥黎(HH)方程独立门控的相同亚基组成,来描述全通道动力学。2. 发现cAMP结合有利于开放通道这一简单假设能够轻松解释开放概率的去极化电压偏移的诱导,其对激动剂浓度呈S形依赖性。3. 在窦房(SA)结细胞的大膜片中测量了开放概率的电压偏移与cAMP浓度的关系;剂量-反应关系的模型拟合分别得出cAMP与开放通道和关闭通道结合的解离常数为0.0732和0.4192微摩尔。变构模型正确预测了10微摩尔cAMP诱导的起搏电流(If)时间常数曲线的改变(去极化偏移13.7毫伏)。4. 根据S形剂量-反应关系,cAMP使失活的偏移大于激活速率常数曲线(在10微摩尔cAMP时最大偏移分别为+22.3和+13.4毫伏);这一特征完全由变构相互作用解释,并表明cAMP主要通过将f通道“锁定”在开放构型中起作用。5. 这些结果为f通道激活的电压和环核苷酸双重依赖性提供了解释。
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