A dermal <i>HOX</i> transcriptional program regulates site-specific epidermal fate

John L. Rinn; Jordon K. Wang; Nancy A. Allen; Samantha A. Brugmann; Amanda Mikels; Helen Liu; Todd W. Ridky; H. Scott Stadler; Roel Nusse; Jill A. Helms; Howard Y. Chang

doi:10.1101/gad.1610508

A dermal <i>HOX</i> transcriptional program regulates site-specific epidermal fate

John L. Rinn(Stanford University), Jordon K. Wang(Stanford University), Nancy A. Allen(Stanford University), Samantha A. Brugmann(Stanford University), Amanda Mikels(Stanford University), Helen Liu(Stanford University), Todd W. Ridky(Stanford University), H. Scott Stadler(Shriners Hospitals for Children - Portland), Roel Nusse(Howard Hughes Medical Institute), Jill A. Helms(Stanford University), Howard Y. Chang(Stanford University)

Genes & Development

February 1, 2008

10.1101/gad.1610508

Cited by 198Open Access

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Abstract

Reciprocal epithelial-mesenchymal interactions shape site-specific development of skin. Here we show that site-specific HOX expression in fibroblasts is cell-autonomous and epigenetically maintained. The distal-specific gene HOXA13 is continually required to maintain the distal-specific transcriptional program in adult fibroblasts, including expression of WNT5A, a morphogen required for distal development. The ability of distal fibroblasts to induce epidermal keratin 9, a distal-specific gene, is abrogated by depletion of HOXA13, but rescued by addition of WNT5A. Thus, maintenance of appropriate HOX transcriptional program in adult fibroblasts may serve as a source of positional memory to differentially pattern the epithelia during homeostasis and regeneration.

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