Overview of chromatin regulatory processes during surface ectodermal development and homeostasis.

The ectoderm is the outermost of the three germ layers of the early embryo that arise during gastrulation. Once the germ layers are established, the complex interplay of cellular proliferation, differentiation, and migration results in organogenesis. The ectoderm is the progenitor of both the surface ectoderm and the neural ectoderm. Notably, the surface ectoderm develops into the epidermis and its associated appendages, nails, external exocrine glands, olfactory epithelium, and the anterior pituitary. Specification, development, and homeostasis of these organs demand a tightly orchestrated gene expression program that is often dictated by epigenetic regulation. In this review, we discuss the recent discoveries that have highlighted the importance of chromatin regulatory mechanisms mediated by transcription factors, histone and DNA modifications that aid in the development of surface ectodermal organs and maintain their homeostasis post-development. [Display omitted] • Chromatin regulatory mechanisms are inherently important for surface ectoderm organ development and homeostasis. • These mechanisms are mediated by transcription factors, histone, and DNA modifiers. • Recent studies have highlighted how signaling effectors, TFs, and chromatin modifiers converge to regulate key processes essential for tissue identity. [ABSTRACT FROM AUTHOR]