University of Houston, College of Optometry, Houston, Texas 77204, USA.
J Comp Neurol. 2010 Jun 1;518(11):2071-89. doi: 10.1002/cne.22322.
The Pde6b(rd10) (rd10) mouse has a moderate rate of photoreceptor degeneration and serves as a valuable model for human autosomal recessive retinitis pigmentosa (RP). We evaluated the progression of neuronal remodeling of second- and third-order retinal cells and their synaptic terminals in retinas from Pde6b(rd10) (rd10) mice at varying stages of degeneration ranging from postnatal day 30 (P30) to postnatal month 9.5 (PNM9.5) using immunolabeling for well-known cell- and synapse-specific markers. Following photoreceptor loss, changes occurred progressively from outer to inner retina. Horizontal cells and rod and cone bipolar cells underwent morphological remodeling that included loss of dendrites, cell body migration, and the sprouting of ectopic processes. Gliosis, characterized by translocation of Müller cell bodies to the outer retina and thickening of their processes, was evident by P30 and became more pronounced as degeneration progressed. Following rod degeneration, continued expression of VGluT1 in the outer retina was associated with survival and expression of synaptic proteins by nearby second-order neurons. Rod bipolar cell terminals showed a progressive reduction in size and ectopic bipolar cell processes extended into the inner nuclear layer and ganglion cell layer by PNM3.5. Putative ectopic conventional synapses, likely arising from amacrine cells, were present in the inner nuclear layer by PNM9.5. Despite these changes, the laminar organization of bipolar and amacrine cells and the ON-OFF organization in the inner plexiform layer was largely preserved. Surviving cone and bipolar cell terminals continued to express the appropriate cell-specific presynaptic proteins needed for synaptic function up to PNM9.5.
Pde6b(rd10) (rd10) 小鼠的感光细胞退化速度适中,是研究人类常染色体隐性遗传视网膜色素变性 (RP) 的理想模型。我们通过免疫标记法对 Pde6b(rd10) (rd10) 小鼠从出生后 30 天(P30)到出生后 9.5 个月(PNM9.5)不同退化阶段的二级和三级视网膜细胞及其突触末端的神经元重塑过程进行了评估,这些细胞和突触都具有特定的标记物。在感光细胞丢失后,从外核层到内核层,变化逐渐发生。水平细胞和视杆细胞及视锥细胞双极细胞发生了形态重塑,包括树突丢失、细胞体迁移和异位过程的分支。胶质增生,表现为 Müller 细胞体向视网膜外层迁移和突起变厚,在 P30 时就已明显,并随着退化的进展而变得更加明显。在视杆细胞退化后,外核层中持续表达的 VGluT1 与附近的二级神经元的存活和突触蛋白表达有关。视杆双极细胞末端的大小逐渐减小,视杆双极细胞的异位突起延伸到内核层和神经节细胞层,这一现象在 PNM3.5 时就已出现。在 PNM9.5 时,内核层中已经存在可能来自无长突细胞的异位常规突触。尽管发生了这些变化,但双极细胞和无长突细胞的层状结构以及内丛状层中的 ON-OFF 组织仍基本保持不变。存活的视锥细胞和双极细胞末端在 PNM9.5 时仍继续表达适当的细胞特异性突触前蛋白,以维持突触功能。