The New England College of Optometry, Dept. of Biosciences, 424 Beacon St., Boston, MA 02115, USA.
Exp Eye Res. 2010 Nov;91(5):715-20. doi: 10.1016/j.exer.2010.08.021. Epub 2010 Aug 27.
The dopaminergic system has been implicated in ocular growth regulation in chicks and monkeys. In both, dopamine D2 agonists inhibit the development of myopia in response to form deprivation, and in chicks, to negative lenses as well. Because there is mounting evidence that the choroidal response to defocus plays a role in ocular growth regulation, we asked whether the effective agonists also elicit transient thickening of the choroid concomitant with the growth inhibition. Negative lenses mounted on velcro rings were worn on one eye starting at age 8-12 days. Intravitreal injections (20 μl; dose = 10 nmole) of the agonist (dissolved in saline) or saline, were given through the superior temporal sclera using a 30G needle. Eyes were injected daily at noon, for 4 days, and the lenses immediately replaced. Agonists used were apomorphine (non-specific; n = 17), quinpirole (D2; n = 10), SKF-38393 (D1; n = 9), and saline controls (n = 22). For the antagonists, the same protocol was used, but on each day, the lenses were removed for 2 h. Immediately prior to lens-removal, the antagonist was injected (20 μl; dose = 5 nmole). Antagonists used were methylergonovine (non-specific; n = 12), spiperone (D2; n = 20), SCH-23390 (D1; n = 6) and saline controls (n = 27). Comparisons to saline (continuous lens wear) controls were from the agonist experiment. Axial dimensions were measured using high frequency A-scan ultrasonography at the start of lens wear, and on day 4 prior to the injections, and then again 3 h later. Refractive errors were measured using a Hartinger's refractometer at the end of the experiment. Apomorphine and quinpirole inhibited the refractive response to the hyperopic defocus induced by the negative lenses (drug vs saline controls: -1.3 and 1.2 D vs -5.6 D; p < 0.005 for both). This effect was axial: both drugs prevented the excessive ocular elongation (change in axial length: 233 and 205 μm vs 417 μm; p < 0.01 for both). Both drugs were also associated with a transient thickening of the choroid over 3 h (41 and 32 μm vs -1 μm; p < 0.01; p = 0.059 respectively) that did not summate: choroids thinned significantly over the 4 day period in all lens-wearing eyes. Two daily hours of unrestricted vision during negative lens wear normally prevents the development of myopia. Spiperone and SCH-23390 inhibited the ameliorating effects of periods of vision on lens-induced refractive error (-2.9 and -2.8 D vs 0.6 D; p < 0.0001), however, the effects on neither axial length nor choroidal thickness were significant. These data support a role for both D1 and D2 receptors in the ocular growth responses.
多巴胺能系统在小鸡和猴子的眼球生长调节中起作用。在这两种动物中,多巴胺 D2 激动剂抑制形觉剥夺诱导的近视发展,在小鸡中,也抑制负透镜诱导的近视发展。由于越来越多的证据表明脉络膜对离焦的反应在眼球生长调节中起作用,我们想知道有效的激动剂是否也会引起脉络膜的短暂增厚,同时伴随着生长抑制。从 8-12 天大开始,在一只眼睛上安装粘扣环的负透镜。通过使用 30G 针头的上颞侧巩膜,将 20μl(剂量为 10nmole)的激动剂(溶解在盐水中)或盐水注入眼内。每天中午注射一次,连续 4 天,并立即更换透镜。使用的激动剂是阿朴吗啡(非特异性;n=17)、喹吡罗(D2;n=10)、SKF-38393(D1;n=9)和盐水对照(n=22)。对于拮抗剂,采用相同的方案,但每天在注射前将镜片取下 2 小时。在移除镜片之前,立即注射拮抗剂(20μl;剂量为 5nmole)。使用的拮抗剂是甲基麦角新碱(非特异性;n=12)、哌泊噻嗪(D2;n=20)、SCH-23390(D1;n=6)和盐水对照(n=27)。与盐水(连续戴镜)对照的比较来自于激动剂实验。在开始戴镜时、第 4 天注射前和 3 小时后,使用高频 A 型超声测量眼轴长度。在实验结束时,使用哈廷格折射计测量屈光不正。阿朴吗啡和喹吡罗抑制了负透镜诱导的远视离焦引起的屈光反应(药物与盐水对照:-1.3 和 1.2 D 与-5.6 D;p<0.005)。这种作用是轴向的:两种药物都阻止了眼球的过度伸长(眼轴长度的变化:233 和 205μm 与 417μm;p<0.01)。两种药物还与 3 小时内脉络膜的短暂增厚有关(41 和 32μm 与-1μm;p<0.01;p=0.059),但不会累积:在所有戴镜眼的 4 天期间,脉络膜明显变薄。在负透镜佩戴期间,每天两小时不受限制的视力通常可以防止近视的发展。哌泊噻嗪和 SCH-23390 抑制了视觉对透镜诱导的屈光误差的改善作用(-2.9 和-2.8 D 与 0.6 D;p<0.0001),然而,对眼轴长度或脉络膜厚度的影响均不显著。这些数据支持 D1 和 D2 受体在眼球生长反应中的作用。
