RESUMEN
Mutations in human MAB21L1 cause aberrations in lens ectoderm morphogenesis and lead to congenital cerebellar, ocular, craniofacial and genital (COFG) syndrome. Murine Mab21l1-null mutations cause severe cell-autonomous defects in lens formation, leading to microphthalmia; therefore, Mab21l1-null mice are used as a mouse model for COFG syndrome. In this study, we investigated the early-onset single-cell-level phenotypes of murine Mab21l1-null lens ectoderms using electron microscopy and single-cell RNA sequencing (scRNA-seq). Electron microscopy and immunohistochemical analyses indicated endoplasmic reticulum stress at the 24- to 26-somite stage in Mab21l1-null lens placodes. scRNA-seq analysis revealed that 131 genes were downregulated and 148 were upregulated in Mab21l1-null lens ectoderms relative to the wild type. We successfully identified 21 lens-specific genes that were downregulated in Mab21l1-null cells, including three key genes involved in lens formation: Pitx3, Maf and Sfrp2. Moreover, gene ontology analysis of the 279 differentially expressed genes indicated enrichment in housekeeping genes associated with DNA/nucleotide metabolism prior to cell death. These findings suggest that MAB21L1 acts as a nuclear factor that modulates not only lens-specific gene expression but also DNA/nucleotide metabolic processes during lens placode formation.
Asunto(s)
Proteínas de Homeodominio , Cristalino , Animales , Ectodermo/metabolismo , Expresión Génica , Proteínas de Homeodominio/genética , Cristalino/metabolismo , Ratones , Ratones NoqueadosRESUMEN
The optic vesicle in the developing embryonic eye contains a multitude of neuroepithelial progenitors that subsequently differentiate into functionally distinct domains of the optic cup, such as the neural retina, pigment epithelium, and optic stalk. To investigate cell-type diversity across early optic vesicles before regionalization of the optic cup, we performed single-cell RNA-sequencing (scRNA-seq) using 7989 cells from the presumptive eye area in mouse embryos at the 12-26-somite stages at five developmental time points. We demonstrated the presence of seven optic vesicle populations. Moreover, the four populations of retinal progenitor cells could be classified according to their stage-dependent time point, and these cells exhibited altered expression of several structural and metabolic key genes, such as Col9a1 and Ckb, just before regionalization of the optic cup. From these data, we provide the first report on stage-dependent transcriptional profiles during initial retinal specification at single-cell resolution and highlight the unexpected developmental heterogeneity of the murine optic vesicle structure.