CHANGES IN THE IMMUNOREACTIVITY FOR INHIBIN IN MOUSE RETINA DURING DEVELOPMENT OF PHOTORECEPTOR CELLS

Inhibin, a widely distributed, multifunctional member of the transform ing growth factor beta superfamily, was originally isolated from ovari an follicular fluid. This molecule was recently localized in bovine an d rat retina by immunohistochemistry and the mRNA encoding the alpha-s ubunit of inhibin was detected in the retina by in situ hybridization and the reverse transcription polymerase chain reaction. In this study we have examined, by immunohistochemical methods, the distribution pa ttern of inhibin in developing mouse eyes on days 10, 11, 14, 16, 18 o f gestation (E0 = coitus) and postnatal days 0, 2, 4, 6, 8, 12, 16 and 18 of age (P0 = day of birth). Immunoreactivity for inhibin appeared on E10 (the earliest day of gestation examined) in the lens and in mig rating large cells between the lens and the inner layer of the optic c up (future neurons of retina). On E16, cells located in the neuroblast ic layer were stained. At birth (PO), the ganglion cells were heavily stained and some amacrine cells were weakly stained. By P4, the amacri ne and bipolar cells were positively stained. The inner plexiform laye r was heavily stained and the outer plexiform layer and horizontal cel ls were also apparent and stained. From P6 on, inhibin-immunoreactive staining was localized at the inner segment of the photoreceptor layer , and to ganglion cells in the inner nuclear layer (INL). By P12, gang lion cells, INL, and inner segments of the photoreceptor layer were he avily stained. The outer segments of the photoreceptor layer, presumab ly the interphotoreceptor matrix, were strongly stained with antibodie s against the alpha-subunit, whereas the outer and inner plexiform lay ers were also moderately stained. The staining in the INL generally de creased with progressing age. We conclude that inhibin is expressed in the eye cup as early as day 10 of gestation, migrates toward the dire ction of pigmented epithelial layers and is concentrated in the interp hotoreceptor matrix by P12, which showed a distribution pattern simila r to that of the adult mouse. These findings suggest that inhibin may play a role in the development of the eye cup and the retina.