Loss of Tbx3 in mouse eye causes retinal angiogenesis defects reminiscent of human disease

AbstractPurposeIn Retinopathy of Prematurity (ROP), infants often have incomplete vascularization, affecting the temporal region. A factor expressed in this region during retinal development is the T-box factor, Tbx3, which has not been studied in the mammalian eye. The purpose of this study was to determine if Tbx3 is required during eye formation for retinal angiogenesis.MethodsConditional removal of Tbx3 from both retinal progenitors and astrocytes was done using the optic cup-Cre recombinase driver, BAC-Dkk3-CRE and analyzed using standard immunohistochemical techniques.ResultsWith Tbx3 loss, the retinas were hypovascular, as seen in patients with ROP and Familial Exudative Vitreoretinopathy (FEVR). Retinal vasculature failed to form the stereotypic tri-layered plexus in the dorsal-temporal region. Astrocyte precursors were reduced in number and failed to form a lattice at the dorsal-temporal edge. We next examined retinal ganglion cells, as they have been shown to play a critical role in retinal angiogenesis. We found that melanopsin expression and Islet1/2-positive retinal ganglion cells were reduced in the dorsal half of the retina. In previous studies, loss of melanopsin has been linked to hyaloid artery persistence, which we also observed in the Tbx3 cKO retina, as well as in infants with ROP or FEVR.ConclusionsTogether, these results show that TBX3 is required for normal mammalian eye formation for the first time. This potentially provides a new genetic model for retinal hypovascular diseases.