短波（紫光）光通过视锥细胞信号保护小鼠免受近视影响。

Short-Wavelength (Violet) Light Protects Mice From Myopia Through Cone Signaling.

机构信息

出版信息

Invest Ophthalmol Vis Sci. 2020 Feb 7;61(2):13. doi: 10.1167/iovs.61.2.13.

DOI:10.1167/iovs.61.2.13

PMID:32049342

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7326482/

Abstract

PURPOSE

Exposure to short-wavelength light influences refractive development and inhibits myopic development in many animal models. Retinal mechanisms underlying this response remain unknown. This study used a mouse model of lens-induced myopia to evaluate the effect of different wavelength light on refractive development and dopamine levels in the retina. A possible retinal pathway is tested using a mutant mouse with dysfunctional cones.

METHODS

Wild-type C57BL/6J (WT) and ALS/LtJ/Gnat2cpfl3 (Gnat2-/-) mice were exposed to one of three different light conditions beginning at postnatal day 28: broad-spectrum "white" (420-680 nm), medium wavelength "green" (525 ± 40 nm), and short wavelength "violet" (400 ± 20 nm). One-half of the mice received hyperopic lens defocus. All mice were exposed to the light for 4 weeks; animals were measured weekly for refractive error and axial parameters. Retinal dopamine and the dopamine metabolite 3,4-dihydroxyphenylacetic acid were measured by HPLC.

RESULTS

In WT mice, short-wavelength violet light induced hyperopia and violet light inhibited lens-induced myopia when compared with mice exposed to white light. Hyperopia could be attributed to shallower vitreous chambers in WT animals. There were no changes in the levels of dopamine or its metabolite. In Gnat2-/- mice, violet light did not induce hyperopia or inhibit lens-induced myopia.

CONCLUSIONS

These findings show that short-wavelength light slows refractive eye growth, producing hyperopic responses in mice and inhibiting lens-induced myopia. The lack of inhibition in mice with dysfunctional cones suggests that cone signaling plays a role in the hyperopic response to short-wavelength (violet) light.

摘要

目的

短波长光的照射会影响许多动物模型的屈光发育并抑制近视的发展。这种反应的视网膜机制尚不清楚。本研究使用一种晶状体诱导近视的小鼠模型，评估不同波长的光对视网膜屈光发育和多巴胺水平的影响。使用一种视锥细胞功能障碍的突变小鼠来测试一种可能的视网膜途径。

方法

从出生后第 28 天开始，将野生型 C57BL/6J（WT）和 ALS/LtJ/Gnat2cpfl3（Gnat2-/-）小鼠暴露于三种不同的光照条件之一：广谱“白光”（420-680nm）、中波长“绿光”（525±40nm）和短波长“紫光”（400±20nm）。一半的小鼠接受远视性离焦透镜。所有小鼠均暴露于光下 4 周；每周测量动物的屈光误差和轴向参数。通过 HPLC 测量视网膜多巴胺及其代谢物 3,4-二羟基苯乙酸。

结果

在 WT 小鼠中，与暴露于白光的小鼠相比，短波长紫光诱导远视，紫光抑制晶状体诱导的近视。WT 动物玻璃体腔较浅可导致远视。多巴胺或其代谢物水平没有变化。在 Gnat2-/-小鼠中，紫光不能诱导远视或抑制晶状体诱导的近视。

结论

这些发现表明，短波长光可减缓屈光性眼球生长，在小鼠中产生远视反应，并抑制晶状体诱导的近视。在视锥细胞功能障碍的小鼠中缺乏抑制作用表明，视锥细胞信号在短波长（紫光）光的远视反应中发挥作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/797d/7326482/913856a907ac/iovs-61-2-13-f001.jpg

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短波（紫光）光通过视锥细胞信号保护小鼠免受近视影响。

Short-Wavelength (Violet) Light Protects Mice From Myopia Through Cone Signaling.

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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