Feldkaemper Marita P, Neacsu Irina, Schaeffel Frank
Institute for Ophthalmic Research, Section of Neurobiology of the Eye, Tübingen, Germany.
Invest Ophthalmol Vis Sci. 2009 Jan;50(1):13-23. doi: 10.1167/iovs.08-1702. Epub 2008 Jul 3.
In animal models, it has been shown that the retina can use the defocus of the projected image to control emmetropization. Glucagon may be involved in the sign of defocus detection, at least in chickens. Since glucagon and insulin often have opposite effects in metabolic pathways, the effect of insulin on eye growth was investigated.
Chicks were treated with either positive or negative spectacle lenses and intravitreally injected with saline or different amounts of insulin. Refraction, axial length, and corneal curvature were measured. Effects of insulin on vitreal glucose concentration, on retinal ZENK and glucagon mRNA levels, and on the number of ZENK-immunoreactive glucagon amacrine cells were studied.
Insulin injections (0.3 nmol) caused only a small myopic shift in control chicks. When positive lenses were worn, insulin injections (0.3; 0.03 nmol) not only blocked hyperopia but rather induced high amounts of axial myopia. Insulin also enhanced myopia that was induced by negative lenses. Axial elongation was mostly due to an increase in anterior chamber depth and a thickening of the crystalline lens. Insulin temporarily reduced vitreal glucose levels. Insulin increased retinal ZENK mRNA levels, whereas the number of ZENK-immunoreactive glucagon amacrine cells was reduced, a finding that is typically linked to the development of myopia.
Given that insulin is used in therapy for human metabolic disorders and has been proposed to treat corneal epithelial disease, its powerful myopiagenic effect, which is mostly due to its effects on the optics of the anterior segment of the eye, merits further investigation.
在动物模型中,已表明视网膜可利用投射图像的散焦来控制正视化。至少在鸡中,胰高血糖素可能参与散焦检测信号。由于胰高血糖素和胰岛素在代谢途径中常具有相反作用,因此研究了胰岛素对眼睛生长的影响。
给小鸡佩戴正或负的眼镜片,并玻璃体内注射生理盐水或不同剂量的胰岛素。测量屈光、眼轴长度和角膜曲率。研究胰岛素对玻璃体内葡萄糖浓度、视网膜ZENK和胰高血糖素mRNA水平以及ZENK免疫反应性胰高血糖素无长突细胞数量的影响。
注射胰岛素(0.3 nmol)仅使对照小鸡出现轻微近视性偏移。佩戴正镜片时,注射胰岛素(0.3;0.03 nmol)不仅阻止了远视,反而诱导了大量眼轴性近视。胰岛素还增强了由负镜片诱导的近视。眼轴伸长主要归因于前房深度增加和晶状体增厚。胰岛素使玻璃体内葡萄糖水平暂时降低。胰岛素增加了视网膜ZENK mRNA水平,而ZENK免疫反应性胰高血糖素无长突细胞数量减少,这一发现通常与近视的发展有关。
鉴于胰岛素用于治疗人类代谢紊乱且已被提议用于治疗角膜上皮疾病,其强大的致近视作用,主要归因于其对眼前节光学结构的影响,值得进一步研究。
