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Temporospatial induction of homeodomain gene cut dictates natural lineage reprogramming.


ABSTRACT: Understanding how cellular identity naturally interconverts with high efficiency and temporospatial precision is crucial for regenerative medicine. Here, we revealed a natural midgut-to-renal lineage conversion event during Drosophila metamorphosis and identified the evolutionarily-conserved homeodomain protein Cut as a master switch in this process. A steep Wnt/Wingless morphogen gradient intersects with a pulse of steroid hormone ecdysone to induce cut expression in a subset of midgut progenitors and reprogram them into renal progenitors. Molecularly, ecdysone-induced temporal factor Broad physically interacts with cut enhancer-bound Wnt pathway effector TCF/?-catenin and likely bridges the distant enhancer and promoter region of cut through its self-association. Such long-range enhancer-promoter looping could subsequently trigger timely cut transcription. Our results therefore led us to propose an unexpected poising-and-bridging mechanism whereby spatial and temporal cues intersect, likely via chromatin looping, to turn on a master transcription factor and dictate efficient and precise lineage reprogramming.

SUBMITTER: Xu K 

PROVIDER: S-EPMC5986271 | biostudies-literature | 2018 May

REPOSITORIES: biostudies-literature

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Temporospatial induction of homeodomain gene <i>cut</i> dictates natural lineage reprogramming.

Xu Ke K   Liu Xiaodan X   Wang Yuchun Y   Wong Chouin C   Song Yan Y  

eLife 20180501


Understanding how cellular identity naturally interconverts with high efficiency and temporospatial precision is crucial for regenerative medicine. Here, we revealed a natural midgut-to-renal lineage conversion event during <i>Drosophila</i> metamorphosis and identified the evolutionarily-conserved homeodomain protein Cut as a master switch in this process. A steep Wnt/Wingless morphogen gradient intersects with a pulse of steroid hormone ecdysone to induce <i>cut</i> expression in a subset of m  ...[more]

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