In Vivo Reprogramming of Wound-resident Cells Generates Skin Epithelial Tissue

Overview

Journal Nature

Specialty Science

Date 2018 Sep 7

PMID 30185909

Citations 55

Authors

Masakazu Kurita

Toshikazu Araoka

Tomoaki Hishida

David D OKeefe

Yuta Takahashi

Akihisa Sakamoto

Masahiro Sakurai

Keiichiro Suzuki

Jun Wu

Mako Yamamoto

Reyna Hernandez-Benitez

Alejandro Ocampo

Pradeep Reddy

Maxim Nikolaievich Shokhirev

Pierre Magistretti

Estrella Nunez Delicado

Hitomi Eto

Kiyonori Harii

Juan Carlos Izpisua Belmonte

Affiliations

Soon will be listed here.

Abstract

Large cutaneous ulcers are, in severe cases, life threatening. As the global population ages, non-healing ulcers are becoming increasingly common. Treatment currently requires the transplantation of pre-existing epithelial components, such as skin grafts, or therapy using cultured cells. Here we develop alternative supplies of epidermal coverage for the treatment of these kinds of wounds. We generated expandable epithelial tissues using in vivo reprogramming of wound-resident mesenchymal cells. Transduction of four transcription factors that specify the skin-cell lineage enabled efficient and rapid de novo epithelialization from the surface of cutaneous ulcers in mice. Our findings may provide a new therapeutic avenue for treating skin wounds and could be extended to other disease situations in which tissue homeostasis and repair are impaired.

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