Department of Neuroscience, 2 Center for Learning and Memory, The University of Texas at Austin, Austin, TX 78712.
J Gen Physiol. 2014 Feb;143(2):231-52. doi: 10.1085/jgp.201311007. Epub 2014 Jan 13.
Ca(2+) activates SK Ca(2+)-activated K(+) channels through the protein Ca(2+) sensor, calmodulin (CaM). To understand how SK channels operate, it is necessary to determine how Ca(2+) regulates CaM binding to its target on SK. Tagless, recombinant SK peptide (SKp), was purified for binding studies with CaM at low and high Ca(2+) concentrations. Composition gradient multi-angle light scattering accurately measures the molar mass, stoichiometry, and affinity of protein complexes. In 2 mM Ca(2+), SKp and CaM bind with three different stoichiometries that depend on the molar ratio of SKp:CaM in solution. These complexes include 28 kD 1SKp/1CaM, 39 kD 2SKp/1CaM, and 44 kD 1SKp/2CaM. A 2SKp/2CaM complex, observed in prior crystallographic studies, is absent. At <5 nM Ca(2+), 1SKp/1CaM and 2SKp/1CaM were observed; however, 1SKp/2CaM was absent. Analytical ultracentrifugation was used to characterize the physical properties of the three SKp/CaM stoichiometries. In high Ca(2+), the sedimentation coefficient is smaller for a 1SKp:1CaM solution than it is for either 2SKp:1CaM or 1SKp:2CaM. At low Ca(2+) and at >100 µM protein concentrations, a molar excess of SKp over CaM causes aggregation. Aggregation is not observed in Ca(2+) or with CaM in molar excess. In low Ca(2+) both 1SKp:1CaM and 1SKp:2CaM solutions have similar sedimentation coefficients, which is consistent with the absence of a 1SKp/2CaM complex in low Ca(2+). These results suggest that complexes with stoichiometries other than 2SKp/2CaM are important in gating.
钙离子通过钙调蛋白(CaM)这种蛋白钙离子感受器激活 SK 钙激活钾通道。为了了解 SK 通道的工作原理,有必要确定 Ca2+ 如何调节 CaM 与 SK 靶标结合。无标签重组 SK 肽(SKp)被纯化,用于在低 Ca2+ 和高 Ca2+ 浓度下与 CaM 进行结合研究。组成梯度多角度光散射精确测量蛋白质复合物的摩尔质量、化学计量和亲和力。在 2mM Ca2+ 下,SKp 和 CaM 以三种不同的化学计量结合,这取决于溶液中 SKp:CaM 的摩尔比。这些复合物包括 28kD 1SKp/1CaM、39kD 2SKp/1CaM 和 44kD 1SKp/2CaM。先前晶体学研究中观察到的 2SKp/2CaM 复合物不存在。在 <5nM Ca2+ 时,观察到 1SKp/1CaM 和 2SKp/1CaM;然而,1SKp/2CaM 不存在。分析超速离心用于表征三种 SKp/CaM 化学计量的物理性质。在高 Ca2+ 下,1SKp:1CaM 溶液的沉降系数小于 2SKp:1CaM 或 1SKp:2CaM。在低 Ca2+ 和 >100µM 蛋白质浓度下,SKp 摩尔过量会导致聚集。在 Ca2+ 或 CaM 摩尔过量时不会观察到聚集。在低 Ca2+ 下,1SKp:1CaM 和 1SKp:2CaM 溶液具有相似的沉降系数,这与低 Ca2+ 下不存在 1SKp/2CaM 复合物一致。这些结果表明,化学计量不是 2SKp/2CaM 的复合物在门控中很重要。
