Peterson Emily, Ryser Ted, Funk Spencer, Inouye Daniel, Sharma Mukesh, Qin Huajun, Cross Timothy A, Busath David D
Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT 84602 USA.
Biochim Biophys Acta. 2011 Feb;1808(2):516-21. doi: 10.1016/j.bbamem.2010.10.010. Epub 2010 Oct 20.
Amantadine-sensitive proton uptake by liposomes is currently the preferred method of demonstrating M2 functionality after reconstitution, to validate structural determination with techniques such as solid-state NMR. With strong driving forces (two decades each of both [K(+)] gradient-induced membrane potential and [H(+)] gradient), M2(22-62) showed a transport rate of 78 H(+)/tetramer-s (pH(o) 6.0, pH(i) 8.0, nominal V(m)=-114 mV), higher than previously measured for similar, shorter, and full-length constructs. Amantadine sensitivity of the conductance domain at pH 6.8 was also comparable to other published reports. Proton flux rate was optimal at protein densities of 0.05-1.0% (peptide wt.% in lipid). Rundown of total proton uptake after addition of valinomycin and CCCP, as detected by delayed addition of valinomycin, indicated M2-induced K(+) flux of 0.1K(+)/tetramer-s, and also demonstrated that the K(+) permeability, relative to H(+), was 2.8 × 10(-6). Transport rate, amantadine and cyclooctylamine sensitivity, acid activation, and H(+) selectivity were all consistent with full functionality of the reconstituted conductance domain. Decreased external pH increased proton uptake with an apparent pK(a) of 6.
目前,脂质体对金刚烷胺敏感的质子摄取是重构后证明M2功能的首选方法,以通过诸如固态核磁共振等技术验证结构测定。在强大的驱动力下([K⁺]梯度诱导的膜电位和[H⁺]梯度各为两个数量级),M2(22 - 62)显示出78 H⁺/四聚体·秒的转运速率(pHₒ 6.0,pHᵢ 8.0,标称Vₘ = -114 mV),高于之前对类似的、较短的和全长构建体的测量值。在pH 6.8时,电导结构域对金刚烷胺的敏感性也与其他已发表的报告相当。质子通量速率在蛋白质密度为0.05 - 1.0%(肽在脂质中的重量百分比)时最佳。通过延迟添加缬氨霉素检测到添加缬氨霉素和CCCP后总质子摄取的减少,表明M2诱导的K⁺通量为0.1K⁺/四聚体·秒,并且还证明相对于H⁺,K⁺渗透率为2.8×10⁻⁶。转运速率、对金刚烷胺和环辛胺的敏感性、酸激活以及H⁺选择性均与重构的电导结构域的完全功能一致。外部pH降低会增加质子摄取,表观pKₐ为6。