Department of Ophthalmology, West Virginia University, Morgantown, West Virginia, USA.
Invest Ophthalmol Vis Sci. 2012 May 1;53(6):3084-91. doi: 10.1167/iovs.11-8798.
In rods saturated by light, the G protein transducin undergoes translocation from the outer segment compartment, which results in the uncoupling of transducin from its innate receptor, rhodopsin. We measured the kinetics of recovery from this adaptive cellular response, while also investigating the role of phosducin, a phosphoprotein binding transducin βγ subunits in its de-phosphorylated state, in regulating this process.
Mice were exposed to a moderate rod-saturating light triggering transducin translocation, and then allowed to recover in the dark while free running. The kinetics of the return of the transducin subunits to the outer segments were compared in transgenic mouse models expressing full-length phosducin, and phosducin lacking phosphorylation sites serine 54 and 71, using Western blot analysis of serial tangential sections of the retina.
In mice expressing normal phosducin, transducin α and βγ subunits returned to the outer segments with a half-time (t(1/2)) of ∼24 and 29 minutes, respectively. In the phosducin phosphorylation mutants, the transducin α subunit moved four times slower, with t(1/2) ∼95 minutes, while the movement of transducin βγ was less affected.
We demonstrate that the recovery of rod photoreceptors from the ambient saturating levels of illumination, in terms of the return of the light-dispersed transducin subunits to the rod outer segments, occurs six times faster than reported previously. Our data also support the notion that the accumulation of transducin α subunit in the outer segment is driven by its re-binding to the transducin βγ dimer, because this process is accelerated significantly by phosducin phosphorylation.
在被光线饱和的视杆细胞中,G 蛋白转导蛋白从外节隔室发生易位,导致转导蛋白与其天然受体视紫红质解偶联。我们测量了从这种适应性细胞反应中恢复的动力学,同时还研究了磷蛋白在调节该过程中的作用,磷蛋白是一种在去磷酸化状态下结合转导蛋白βγ亚基的磷酸蛋白。
用中等强度的光使小鼠的视杆细胞饱和,以触发转导蛋白易位,然后在黑暗中自由运行,以恢复光感受器的功能。在表达全长磷蛋白和缺乏丝氨酸 54 和 71 磷酸化位点的磷蛋白的转基因小鼠模型中,通过对视网膜的连续切线切片进行 Western blot 分析,比较了转导蛋白亚基返回外节的动力学。
在表达正常磷蛋白的小鼠中,转导蛋白α和βγ亚基分别以约 24 和 29 分钟的半衰期(t(1/2))返回外节。在磷蛋白磷酸化突变体中,转导蛋白α亚基的移动速度慢了四倍,t(1/2)约为 95 分钟,而转导蛋白βγ的移动速度受影响较小。
我们证明,在从环境饱和光照中恢复方面,视杆细胞的恢复,即光分散的转导蛋白亚基返回视杆外节,发生的速度比以前报道的快六倍。我们的数据还支持这样一种观点,即转导蛋白α亚基在外节中的积累是由其与转导蛋白βγ二聚体的再结合驱动的,因为磷蛋白磷酸化显著加速了这一过程。
