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Human Cerberus Prevents Nodal-Receptor Binding, Inhibits Nodal Signaling, and Suppresses Nodal-Mediated Phenotypes

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  • Senem Aykul
  • Wendi Ni
  • Washington Mutatu
  • Erik Martinez-Hackert

Abstract

The Transforming Growth Factor-ß (TGFß) family ligand Nodal is an essential embryonic morphogen that is associated with progression of breast and other cancers. It has therefore been suggested that Nodal inhibitors could be used to treat breast cancers where Nodal plays a defined role. As secreted antagonists, such as Cerberus, tightly regulate Nodal signaling during embryonic development, we undertook to produce human Cerberus, characterize its biochemical activities, and determine its effect on human breast cancer cells. Using quantitative methods, we investigated the mechanism of Nodal signaling, we evaluated binding of human Cerberus to Nodal and other TGFß family ligands, and we characterized the mechanism of Nodal inhibition by Cerberus. Using cancer cell assays, we examined the ability of Cerberus to suppress aggressive breast cancer cell phenotypes. We found that human Cerberus binds Nodal with high affinity and specificity, blocks binding of Nodal to its signaling partners, and inhibits Nodal signaling. Moreover, we showed that Cerberus profoundly suppresses migration, invasion, and colony forming ability of Nodal expressing and Nodal supplemented breast cancer cells. Taken together, our studies provide mechanistic insights into Nodal signaling and Nodal inhibition with Cerberus and highlight the potential value of Cerberus as anti-Nodal therapeutic.

Suggested Citation

  • Senem Aykul & Wendi Ni & Washington Mutatu & Erik Martinez-Hackert, 2015. "Human Cerberus Prevents Nodal-Receptor Binding, Inhibits Nodal Signaling, and Suppresses Nodal-Mediated Phenotypes," PLOS ONE, Public Library of Science, vol. 10(1), pages 1-23, January.
    • Handle: RePEc:plo:pone00:0114954
    DOI: 10.1371/journal.pone.0114954
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    References listed on IDEAS

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    1. Stefano Piccolo & Eric Agius & Luc Leyns & Subha Bhattacharyya & Horst Grunz & Tewis Bouwmeester & E. M. De Robertis, 1999. "The head inducer Cerberus is a multifunctional antagonist of Nodal, BMP and Wnt signals," Nature, Nature, vol. 397(6721), pages 707-710, February.
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