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A gene regulatory network to control EMT programs in development and disease.


ABSTRACT: The Epithelial to Mesenchymal Transition (EMT) regulates cell plasticity during embryonic development and in disease. It is dynamically orchestrated by transcription factors (EMT-TFs), including Snail, Zeb, Twist and Prrx, all activated by TGF-? among other signals. Here we find that Snail1 and Prrx1, which respectively associate with gain or loss of stem-like properties and with bad or good prognosis in cancer patients, are expressed in complementary patterns during vertebrate development and in cancer. We show that this complementarity is established through a feedback loop in which Snail1 directly represses Prrx1, and Prrx1, through direct activation of the miR-15 family, attenuates the expression of Snail1. We also describe how this gene regulatory network can establish a hierarchical temporal expression of Snail1 and Prrx1 during EMT and validate its existence in vitro and in vivo, providing a mechanism to switch and select different EMT programs with important implications in development and disease.

SUBMITTER: Fazilaty H 

PROVIDER: S-EPMC6848104 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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A gene regulatory network to control EMT programs in development and disease.

Fazilaty Hassan H   Rago Luciano L   Kass Youssef Khalil K   Ocaña Oscar H OH   Garcia-Asencio Francisco F   Arcas Aida A   Galceran Juan J   Nieto M Angela MA  

Nature communications 20191111 1


The Epithelial to Mesenchymal Transition (EMT) regulates cell plasticity during embryonic development and in disease. It is dynamically orchestrated by transcription factors (EMT-TFs), including Snail, Zeb, Twist and Prrx, all activated by TGF-β among other signals. Here we find that Snail1 and Prrx1, which respectively associate with gain or loss of stem-like properties and with bad or good prognosis in cancer patients, are expressed in complementary patterns during vertebrate development and i  ...[more]

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