Wormington C M, Cone R A
J Gen Physiol. 1978 Jun;71(6):657-81. doi: 10.1085/jgp.71.6.657.
We have investigated, with osmotic techniques, the light-regulated Na+ channels in rod outer segments (ROS) and ROS fragments freshly isolated from the frog retina. Values of Na+ permeability (PNa) similar to those observed electrophysiologically in the retina were observed using the osmotic technique (continuous flow) described by Korenbrot and Cone. In the other osmotic techniques that we explored, PNa was greatly diminished, if not completely suppressed; however, we found with these techniques that antioxidant conditions (N2 atmosphere or EDTA) significantly increased PNa, suggesting that the Na+ channels are highly sensitivive to membrane oxidation. Using the continuous flow technique, we investigated the H+ and Ca++ dependence of the Na+ channels and found that both of these ions, at micromolar activities, can block the channels. Raising the external H+ activity decreases PNa (reversibly) in a single "sigmoidal" response with an apparent pKa of 5.8. Similarly, in the presence of the ionophores X537A or A23187 which allow equilibration of Ca++ across membranes, the Na+ channels are blocked when the external Ca++ activity is increased from 10(-7) to 10(-5) M. This high sensitivity to both H+ and Ca++ ions suggests that high field strength anionic sites may exist in or near the Na+ channels and that the channels are blocked when these sites bind H+ or Ca++ ions.
我们运用渗透技术,研究了从青蛙视网膜新鲜分离出的视杆外段(ROS)及ROS片段中受光调节的钠离子通道。使用Korenbrot和Cone所描述的渗透技术(连续流动法),观察到的钠离子通透性(PNa)值与在视网膜中通过电生理学方法观察到的值相似。在我们探索的其他渗透技术中,即使PNa没有被完全抑制,也大幅降低;然而,我们通过这些技术发现,抗氧化条件(氮气氛围或乙二胺四乙酸)能显著提高PNa,这表明钠离子通道对膜氧化高度敏感。运用连续流动技术,我们研究了钠离子通道对氢离子和钙离子的依赖性,发现这两种离子在微摩尔活性水平时都能阻断通道。提高细胞外氢离子活性会使PNa(可逆地)以单一的“sigmoid”响应降低,表观pKa为5.8。同样,在存在使钙离子能跨膜平衡的离子载体X537A或A23187的情况下,当细胞外钙离子活性从10⁻⁷增加到10⁻⁵ M时,钠离子通道会被阻断。对氢离子和钙离子的这种高敏感性表明,钠离子通道内或其附近可能存在高场强阴离子位点,并且当这些位点结合氢离子或钙离子时,通道会被阻断。