Litcius/Paper detail

The role of ipRGCs in ocular growth and myopia development

Ailin Liu, Yunfeng Liu, Ge Wang, Yuqi Shao, Chen-Xi Yu, Zhe Yang, Zirui Zhou, Xu Han, Xue Gong, Kang-Wei Qian, Liqin Wang, Yuanyuan Ma, Yong‐Mei Zhong, Shi-Jun Weng, Xiong‐Li Yang

2022Science Advances83 citationsDOIOpen Access PDF

Abstract

The increasing global prevalence of myopia calls for elaboration of the pathogenesis of this disease. Here, we show that selective ablation and activation of intrinsically photosensitive retinal ganglion cells (ipRGCs) in developing mice induced myopic and hyperopic refractive shifts by modulating the corneal radius of curvature (CRC) and axial length (AL) in an opposite way. Melanopsin- and rod/cone-driven signals of ipRGCs were found to influence refractive development by affecting the AL and CRC, respectively. The role of ipRGCs in myopia progression is evidenced by attenuated form-deprivation myopia magnitudes in ipRGC-ablated and melanopsin-deficient animals and by enhanced melanopsin expression/photoresponses in form-deprived eyes. Cell subtype-specific ablation showed that M1 subtype cells, and probably M2/M3 subtype cells, are involved in ocular development. Thus, ipRGCs contribute substantially to mouse eye growth and myopia development, which may inspire novel strategies for myopia intervention.

Topics & Concepts

BiologyOptometryOphthalmologyMedicineRetinopathy of Prematurity StudiesCircadian rhythm and melatoninOphthalmology and Visual Impairment Studies