Expressions of cellular retinoic acid binding proteins I and retinoic acid receptor-β in the guinea pig eyes with experimental myopia

Abstract

Aim: All-trans retinoic acid (RA) is the only extrinsic biochemical candidate known to date that could act as a growth controller, the aim of this study was to investigate the expression cellular retinoic acid binding proteins I (CRABP-I) and retinoic acid receptor-β (RAR-β) in retina of the guinea pig eyes with experimental myopia.

Methods: Ninety guinea pigs aged 14 days were equally and randomly divided into three groups: form deprivation (FD), -5D lens, and control. The diffusers for FD were white translucent hemispheres, and -5D lenses were used to introduce hyperopic defocus. Refraction was measured with streak retinoscopy after cycloplegia, and axial length was calculated with Cinescan A/B ultrasonography. Retina harvested at different time points were used to measure RA level with HPLC and expressions of cellular retinoic acid binding proteins I (CRABP-I) and RA receptor-β (RAR-β) were assayed with Western blot and Real-time PCR. SPSS13.0 software was used for statistical analysis.

Results: Up-regulations of CRABP-I and RAR-β in ocular tissues correlated with changes in the refractive status and growth rate of the guinea pig eye (P<0.05). 14 days of monocular form-deprivation led to -5.14D myopia and a 0.281mm axial elongation; 14 days of monocular defocus produced -3.64D myopia and a 0.163 mm axial elongation. The level of retinal RA started to elevate in 7 days (P<0.05) after visual manipulation in both FD and -5D lens groups and became more prominent by 14 days (P<0.01) . The expressions of CRABP-I and RAR-β increased by 14 days after visual manipulation (P<0.05), the mRNA level of RAR-β, however, increased by 7 days after visual manipulation (P<0.05), which suggested that changes of expressions of CRABP-I and RAR-β might lag behind the change of RA.

Conclusion: The levels of CRABP-I and RAR-β were elevated in retina of the guinea pig eye with experimental myopia. During the progression of experimental myopia, the retinal RA level increased rapidly, and there might be a positive feedback between the increase of RA and up-regulation of RAR-β.

Keywords: CRABP-I; RAR-β; experimental myopia; guinea pig; retinoic acid.

Figure 1. Western blot showing the expression of retinal CRABP-I and RAR-β in the diffuser wearing eye, -5D lens wearing eye and the control eye 7 days and 14 days after visual manipulation respectively (^aP<0.05)

Figure 2. Real-time PCR showing the transcriptions of the CRABP-I gene(A) and RAR-β gene(B) in the diffuser wearing eye, -5D lens wearing eye and the control eye 7 days and 14 days after visual manipulation respectively (^aP<0.05, ^bP<0.01)