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Reverse signaling by semaphorin 4C elicits SMAD1/5- and ID1/3-dependent invasive reprogramming in cancer cells.

Authors
  • Gurrapu, Sreeharsha1
  • Franzolin, Giulia1, 2
  • Damon Fard1, 2
  • Accardo, Massimo1
  • Medico, Enzo2, 3
  • Sarotto, Ivana4
  • Sapino, Anna4, 5
  • Isella, Claudio2, 3
  • Tamagnone, Luca6, 7
Type
Published Article
Journal
Science Signaling
Publisher
American Association for the Advancement of Science (AAAS)
Publication Date
Aug 19, 2019
Volume
12
Issue
595
Identifiers
DOI: 10.1126/scisignal.aav2041
PMID: 31431542
Source
Medline
Language
English
License
Unknown

Abstract

Semaphorins are a family of molecular signals that guide cell migration and are implicated in the regulation of cancer cells. In particular, transmembrane semaphorins are postulated to act as both ligands ("forward" mode) and signaling receptors ("reverse" mode); however, reverse semaphorin signaling in cancer is relatively less understood. Here, we identified a previously unknown function of transmembrane semaphorin 4C (Sema4C), acting in reverse mode, to elicit nonconventional TGF-β/BMP receptor activation and selective SMAD1/5 phosphorylation. Sema4C coimmunoprecipitated with TGFBRII and BMPR1, supporting its role as modifier of this pathway. Sema4C reverse signaling led to the increased abundance of ID1/3 transcriptional factors and to extensive reprogramming of gene expression, which suppressed the typical features of the epithelial-mesenchymal transition in invasive carcinoma cells. This phenotype was nevertheless coupled with burgeoning metastatic behavior in vivo, consistent with evidence that Sema4C expression correlates with metastatic progression in human breast cancers. Thus, Sema4C reverse signaling promoted SMAD1/5- and ID1/3-dependent gene expression reprogramming and phenotypic plasticity in invasive cancer cells. Copyright © 2019 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.

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