Retinal pigmented epithelium development from the perspective of transcription factors and cis‐regulatory elements

Abstract

AbstractNormal vision depends on the retinal pigmented epithelium (RPE), a metabolic cell layer that is vital to the development and function of the adjacent retinal photoreceptors. The LIM‐homeodomain transcription factor Lhx2 is important key factor for generation of the progenitors of both RPE and retina during early stages of eye development and is also essential for the generation of different stem cells giving rise to multiple types of organs.The purpose of this project is to understand the gene regulatory network (GRN) and the cis‐regulatory sequences bound by Lhx2/LHX2 in mouse and human in the developing and mature retinal pigment epithelium (RPE) of mammals.The methods include functional studies in vivo using Cre/loxP and knockdown approaches in RPE derived from human embryonic stem cells (hES‐RPE). The functional studies are combined with analyses of the global molecular changes, by identifying and characterizing cis‐regulatory regions bound by the complex and the impact of the mutation on gene expression and tissue differentiation.The results reveal essential role for Lhx2 in maintaining RPE fate in the embryonic optic cup and in differentiated hES‐RPE. Lhx2 seems to function as direct regulator of tissue specific transcription factors as well as cytoskeletal and cell adhesion genes.Conclusions: the GRN and the cis regulatory sequences identified provide novel insight on the activity of an important developmental regulator in controlling RPE differentiation, morphology and function in mice and humans.