Background: Experimental studies on retinal vasculature and retinal ganglion cells (RGCs) investigating the developmental and pathological conditions of the retina mainly rely on whole-mount retinal immunostaining. Methanol, an auxiliary fixed medium for retinal whole-mount preparations, has been used in some studies; however, its application in short- and long-term storage of retinas for further study has not been well described. We aimed to evaluate methanol use as a preservation treatment for further immunostaining of the retina.
Methods: We generated oxygen-induced retinopathy (OIR) and optic nerve crush (ONC) mouse models and used their retinas for analysis. We pipetted cold methanol (-20°C) on the surface of the retina to help fix the tissues while promoting permeability, after which the retinas were stored in cold methanol (-20°C) for 1, 6, or 12 months before being evaluated using various optical techniques. Thereafter, retinal whole-mount immunostaining was performed to analyse retinal neovascularisation and retinal hypoxia in OIR model, and retinal ganglion cell survival rate in ONC model.
Results: Quantitative analysis revealed no significant differences in the fixed retinas after long-term storage in terms of retinal vasculature or retinal hypoxia in the OIR model. Similarly, no significant difference was found in RGC survival rate after long-term storage in methanol. These results suggest that methanol can be used as a storage medium when preserving retinal whole-mount samples.
Conclusions: Cold (-20°C) methanol can serve as an effective medium for long-term storage of fixed retinas, which is useful for further research.
Keywords: immunostaining; methanol; retinal ganglion cell; retinal neovascularisation.
© 2022 Royal Australian and New Zealand College of Ophthalmologists.