Ocular diurnal rhythms and eye growth

眼昼节律和眼睛生长

• 批准号: 6545038
• 负责人: DEBORA L NICKLA
• 金额: $ 20.78万
• 依托单位: NEW ENGLAND COLLEGE OF OPTOMETRY
• 依托单位国家: 美国
• 财政年份: 2002
• 资助国家: 美国
• 起止时间: 2002-08-01 至 2006-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6545038
• 关键词: biological signal transduction; chickens; circadian rhythms; glycoprotein biosynthesis; growth /development; membrane reconstitution /synthesis; molecular film; myopia; retinoate; sclera; ultrasonography

DESCRIPTION (provided by applicant): In the United States, myopia affects nearly 25 percent of the population, while in certain other developed countries the proportion of the population affected increases to 80 percent or more. Pathological myopia is also a leading cause of blindness. Therefore, understanding the mechanisms underlying the regulation of ocular growth is critical towards understanding how and why it goes awry in eyes that develop ametropias, and might lead to the development of new therapies. Recent work has indicated that changes in the rate of ocular growth are associated with alterations in ocular circadian rhythms. The work proposed here seeks to extend these original observations, to better understand the mechanisms underlying these effects. Specifically, we ask whether the phase shifts in the rhythms in axial length and choroid thickness (two ocular circadian rhythms the phases of which have been shown to be altered by visual manipulations that alter growth rate) are temporally correlated with visually induced changes in rate of ocular growth. This would imply that the changes in thickness of the choroid might play a causal role in ocular growth regulation. To further explore this notion we will test the hypothesis that daily transient changes in choroidal thickness are part of the signal pathway mediating emmetropization. Specifically, we ask whether the visual signals mediating changes in choroidal thickness and those mediating changes in ocular growth rate are the same, or are separate. Finally, we will look at some visual and chemical effects on the circadian rhythm in scleral proteoglycan synthesis to further explore how the phases of these ocular rhythms might interact in regulating ocular growth. We will also test the hypothesis that there is a diurnal rhythm in choroidal retinoic acid synthesis that might influence the diurnal rhythm in scieral proteoglycan synthesis. The results from these three Aims will bring us closer to understanding the molecular mechanisms underlying ocular growth regulation, and elucidate the influence of the choroid in these mechanisms.

描述（由申请人提供）：在美国，近视影响了近 25% 的人口，而在某些其他发达国家，受影响的人口比例增加到 80% 或更多。病理性近视也是导致失明的主要原因。因此，了解眼睛生长调节的机制对于了解眼睛生长如何以及为什么会出现屈光不正的问题至关重要，并可能导致新疗法的开发。 最近的研究表明，眼睛生长速度的变化与眼昼夜节律的改变有关。这里提出的工作旨在扩展这些原始观察结果，以更好地理解这些影响背后的机制。具体来说，我们询问眼轴长度和脉络膜厚度节律的相移（两种眼昼夜节律，其相位已被证明可以通过改变生长速率的视觉操作而改变）与视觉引起的眼生长速率变化在时间上相关。这意味着脉络膜厚度的变化可能在眼睛生长调节中发挥因果作用。为了进一步探讨这个概念，我们将检验以下假设：脉络膜厚度的每日瞬时变化是介导正视化的信号通路的一部分。具体来说，我们询问介导脉络膜厚度变化的视觉信号和介导眼睛生长速率变化的视觉信号是否相同，或者是分开的。最后，我们将研究一些视觉和化学对巩膜蛋白多糖合成中昼夜节律的影响，以进一步探讨这些眼节律的阶段如何在调节眼睛生长中相互作用。我们还将测试脉络膜视黄酸合成中存在昼夜节律的假设，该昼夜节律可能会影响科学蛋白多糖合成中的昼夜节律。这三个目标的结果将使我们更深入地了解眼部生长调节的分子机制，并阐明脉络膜在这些机制中的影响。