4.6 Article

Transforming growth factor (TGF) induces NUAK kinase expression to fine-tune its signaling output

Journal

JOURNAL OF BIOLOGICAL CHEMISTRY
Volume 294, Issue 11, Pages 4119-4136

Publisher

AMER SOC BIOCHEMISTRY MOLECULAR BIOLOGY INC
DOI: 10.1074/jbc.RA118.004984

Keywords

AMP-activated kinase (AMPK); cell cycle; epithelial-mesenchymal transition (EMT); myofibroblast; SMAD transcription factor; signal transduction; transforming growth factor beta (TGF-beta); cell signaling; NUAK family kinase

Funding

  1. Ludwig Cancer Research Ltd.
  2. Swedish Research Council [K2010-67X-14936-07-3, K2013-66X-14936-10-5, 2015-02757]
  3. Swedish Cancer Society [CAN 2009/900, CAN 2012/438, CAN 2015/438, CAN 2016/435]
  4. Wenner-Gren Society, Sweden
  5. Marie Curie Research Training Network EpiPlastCarcinoma under the European Union FP6 program [MRTN-2005-005428]

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TGF signaling via SMAD proteins and protein kinase pathways up- or down-regulates the expression of many genes and thus affects physiological processes, such as differentiation, migration, cell cycle arrest, and apoptosis, during developmental or adult tissue homeostasis. We here report that NUAK family kinase 1 (NUAK1) and NUAK2 are two TGF target genes. NUAK1/2 belong to the AMP-activated protein kinase (AMPK) family, whose members control central and protein metabolism, polarity, and overall cellular homeostasis. We found that TGF-mediated transcriptional induction of NUAK1 and NUAK2 requires SMAD family members 2, 3, and 4 (SMAD2/3/4) and mitogen-activated protein kinase (MAPK) activities, which provided immediate and early signals for the transient expression of these two kinases. Genomic mapping identified an enhancer element within the first intron of the NUAK2 gene that can recruit SMAD proteins, which, when cloned, could confer induction by TGF. Furthermore, NUAK2 formed protein complexes with SMAD3 and the TGF type I receptor. Functionally, NUAK1 suppressed and NUAK2 induced TGF signaling. This was evident during TGF-induced epithelial cytostasis, mesenchymal differentiation, and myofibroblast contractility, in which NUAK1 or NUAK2 silencing enhanced or inhibited these responses, respectively. In conclusion, we have identified a bifurcating loop during TGF signaling, whereby transcriptional induction of NUAK1 serves as a negative checkpoint and NUAK2 induction positively contributes to signaling and terminal differentiation responses to TGF activity.

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