Functional changes of retinal ganglion cells in rd1 mice during midterm of retinal pigmentosa

AIM: To investigate how the function of retinal ganglion cells (RGCs) change in the midterm of retinal pigmentosa (RP) in rd1 mice (a transgenic animal model of RP). METHODS: The action potentials from multiple RGCs in rd1 mice at postnatal 20 d (P20) or normal C57 mice (control) were simultaneously recorded by multi-electrode array recording. The functional changes of surviving ganglion cells were evaluated by comparing spontaneous and light-evoked activities of RGCs between rd1 and control mice. The extent of photoreceptor degeneration was verified by immunohistochemical staining. RESULTS: Immunohistochemistry results showed the thickness of the retinal photoreceptor layer of rd1 mice was significantly lower than that in normal mice at P20. According to the light response properties, we classified ganglion cells into 6 subgroups: ON sustained, ON transient, ON-OFF sustained, ON-OFF transient, OFF sustained and OFF transient RGCs, with a very tiny percentage of OFF sustained RGCs (1.0%~3.1%). The percentage of RGCs remaining light responsive in rd1 mice was significantly lower than that in C57 mice. The average spontaneous spiking rate for rd1 RGCs was overall significantly increased compared to that in C57 cells, whereas different RGC types had different changes. The light-induced responses and light sensitivities of all types of RGCs in rd1 mice were both significantly lower than those in C57 mice. CONCLUSION: The photoreceptors of rd1 mice are severely degenerated in the midterm of retinal degeneration. The functions of RGCs in rd1 mice in the midterm of degeneration decay obviously, with variance in different RGCs types.