Ann Collier,et al.

Proper ectodermal patterning during human development requires previously identified transcription factors such as GATA3 and p63,as well as positional signalling from regional mesoderm1-6.However,the mechanism by which ectoderm and mesoderm factors act to stably pattern gene expression and lineage commitment remains unclear.Here we identify the protein Gibbin,encoded by the Xia-Gibbs AT-hook DNA-binding-motif-containing 1 (AHDC1) disease gene7-9,as a key regulator of early epithelial morphogenesis.We find that enhancer-or promoter-bound Gibbin interacts with dozens of sequence-specific zinc-finger transcription factors and methyl-CpG-binding proteins to regulate the expression of mesoderm genes.The loss of Gibbin causes an increase in DNA methylation at GATA3-dependent mesodermal genes,resulting in a loss of signalling between developing dermal and epidermal cell types.Notably,Gibbin-mutant human embryonic stem-cell-derived skin organoids lack dermal maturation,resulting in p63-expressing basal cells that possess defective keratinocyte stratification.In vivo chimeric CRISPR mouse mutants reveal a spectrum of Gibbin-dependent developmental patterning defects affecting craniofacial structure,abdominal wall closure and epidermal stratification that mirror patient phenotypes.Our results indicate that the patterning phenotypes seen in Xia-Gibbs and related syndromes derive from abnormal mesoderm maturation as a result of gene-specific DNA methylation decisions.