Department of Neuroscience, Emory University, Atlanta, Georgia, United States.
Center for Visual and Neurocognitive Rehabilitation, Atlanta VA Healthcare System, Atlanta, Georgia, United States.
Invest Ophthalmol Vis Sci. 2021 Jan 4;62(1):28. doi: 10.1167/iovs.62.1.28.
Exposure to high-intensity or outdoor lighting has been shown to decrease the severity of myopia in both human epidemiological studies and animal models. Currently, it is not fully understood how light interacts with visual signaling to impact myopia. Previous work performed in the mouse retina has demonstrated that functional rod photoreceptors are needed to develop experimentally-induced myopia, alluding to an essential role for rod signaling in refractive development.
To determine whether dim rod-dominated illuminance levels influence myopia susceptibility, we housed male C57BL/6J mice under 12:12 light/dark cycles with scotopic (1.6 × 10-3 candela/m2), mesopic (1.6 × 101 cd/m2), or photopic (4.7 × 103 cd/m2) lighting from post-natal day 23 (P23) to P38. Half the mice received monocular exposure to -10 diopter (D) lens defocus from P28-38. Molecular assays to measure expression and content of DA-related genes and protein were conducted to determine how illuminance and lens defocus alter dopamine (DA) synthesis, storage, uptake, and degradation and affect myopia susceptibility in mice.
We found that mice exposed to either scotopic or photopic lighting developed significantly less severe myopic refractive shifts (lens treated eye minus contralateral eye; -1.62 ± 0.37D and -1.74 ± 0.44D, respectively) than mice exposed to mesopic lighting (-3.61 ± 0.50D; P < 0.005). The 3,4-dihydroxyphenylacetic acid /DA ratio, indicating DA activity, was highest under photopic light regardless of lens defocus treatment (controls: 0.09 ± 0.011 pg/mg, lens defocus: 0.08 ± 0.008 pg/mg).
Lens defocus interacted with ambient conditions to differentially alter myopia susceptibility and DA-related genes and proteins. Collectively, these results show that scotopic and photopic lighting protect against lens-induced myopia, potentially indicating that a broad range of light levels are important in refractive development.
高强度或户外光照已被证明可降低人类流行病学研究和动物模型中近视的严重程度。目前,尚不完全清楚光线如何与视觉信号相互作用来影响近视。先前在小鼠视网膜中进行的工作表明,功能性视杆光感受器对于实验性诱导的近视的发展是必需的,这暗示了视杆信号在屈光发育中的重要作用。
为了确定暗视杆主导的照度水平是否会影响近视易感性,我们在 12:12 光/暗循环下,从小鼠出生后第 23 天(P23)至 P38 日,将雄性 C57BL/6J 小鼠置于 1.6×10-3 坎德拉/平方米的暗视(scotopic)、1.6×101 坎德拉/平方米的中视(mesopic)或 4.7×103 坎德拉/平方米的明视(photopic)照明下。一半的小鼠从 P28-38 日接受单眼-10 屈光度(D)透镜离焦。进行分子检测以测量 DA 相关基因和蛋白质的表达和含量,以确定照度和透镜离焦如何改变多巴胺(DA)的合成、储存、摄取和降解,并影响小鼠的近视易感性。
我们发现,暴露于暗视或明视光照下的小鼠发展出的近视性屈光变化明显较轻(处理眼减去对侧眼;-1.62±0.37D 和-1.74±0.44D,分别)比暴露于中视光照的小鼠(-3.61±0.50D;P<0.005)。3,4-二羟苯乙酸/DA 比值(指示 DA 活性)在明视光照下无论透镜离焦处理如何均最高(对照组:0.09±0.011 pg/mg,透镜离焦:0.08±0.008 pg/mg)。
透镜离焦与环境条件相互作用,以不同的方式改变近视易感性和 DA 相关基因和蛋白质。总的来说,这些结果表明暗视和明视光照可预防透镜诱导的近视,这可能表明广泛的光照水平在屈光发育中很重要。
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