A common microRNA signature in mouse models of retinal degeneration.

Perturbed microRNA (miR) expression is a feature of, and may play a fundamental role in, certain disease states such as different forms of cancer. Retinitis pigmentosa (RP) a group of inherited retinal degenerations is characterised by a progressive loss of photoreceptor cells and consequent visual handicap. We have previously reported an altered pan-retinal expression of miR-96, -183, -1 and -133 in a P347S-Rhodopsin transgenic mouse model of RP. As many different mutations in Rhodopsin and other genes such as RDS/Peripherin can lead to RP, it was of interest to explore whether the characterized retinal miR expression signature was observed in three other mouse models of RP linked to rhodopsin and rds/peripherin. Therefore, pan-retinal expression of miR-96, -182, -183, -1, -133 and -142 was analysed using quantitative real-time RT-PCR. A common signature of altered miR expression was found; expression of miR-96, -182 and -183 decreased by 14.1-53.2%, while expression of miR-1, -133 and -142 was up-regulated by 186.1-538.5%. Significantly, the detected pan-retinal miR signature was mirrored by similar miR expression profiles in FACS-isolated rod photoreceptors from these mice. In an attempt to understand the function of these miRs, corresponding target genes were predicted using computational means. Many 'enriched' targets (with binding sites for at least two of the above miRs) were found to be regulatory molecules and members of intracellular signalling circuits. However, further studies are required to highlight which of the large number of in silico predicted targets are actually controlled by these miRs.