Jiang H, Lyubarsky A, Dodd R, Vardi N, Pugh E, Baylor D, Simon M I, Wu D
Department of Pharmacology and Physiology, University of Rochester, NY 14642, USA.
Proc Natl Acad Sci U S A. 1996 Dec 10;93(25):14598-601. doi: 10.1073/pnas.93.25.14598.
Expression of G protein-regulated phospholipase C (PLC) beta 4 in the retina, lateral geniculate nucleus, and superior colliculus implies that PLC beta 4 may play a role in the mammalian visual process. A mouse line that lacks PLC beta 4 was generated and the physiological significance of PLC beta 4 in murine visual function was investigated. Behavioral tests using a shuttle box demonstrated that the mice lacking PLC beta 4 were impaired in their visual processing abilities, whereas they showed no deficit in their auditory abilities. In addition, the PLC beta 4-null mice showed 4-fold reduction in the maximal amplitude of the rod a- and b-wave components of their electroretinograms relative to their littermate controls. However, recording from single rod photoreceptors did not reveal any significant differences between the PLC beta 4-null and wild-type littermates, nor were there any apparent differences in retinas examined with light microscopy. While the behavioral and electroretinographic results indicate that PLC beta 4 plays a significant role in mammalian visual signal processing, isolated rod recording shows little or no apparent deficit, suggesting that the effect of PLC beta 4 deficiency on the rod signaling pathway occurs at some stage after the initial phototransduction cascade and may require cell-cell interactions between rods and other retinal cells.
G蛋白调节的磷脂酶C(PLC)β4在视网膜、外侧膝状体核和上丘中的表达表明,PLCβ4可能在哺乳动物视觉过程中发挥作用。构建了一种缺乏PLCβ4的小鼠品系,并研究了PLCβ4在小鼠视觉功能中的生理意义。使用穿梭箱进行的行为测试表明,缺乏PLCβ4的小鼠视觉处理能力受损,而听觉能力没有缺陷。此外,与同窝对照相比,PLCβ4基因敲除小鼠视网膜电图的视杆细胞a波和b波成分的最大振幅降低了4倍。然而,对单个视杆光感受器的记录显示,PLCβ4基因敲除小鼠与野生型同窝小鼠之间没有任何显著差异,光镜检查的视网膜也没有明显差异。虽然行为和视网膜电图结果表明PLCβ4在哺乳动物视觉信号处理中起重要作用,但分离的视杆细胞记录显示几乎没有明显缺陷,这表明PLCβ4缺乏对视杆信号通路的影响发生在初始光转导级联反应后的某个阶段,可能需要视杆细胞与其他视网膜细胞之间的细胞间相互作用。