Raf induces TGFβ production while blocking its apoptotic but not invasive responses: a mechanism leading to increased malignancy in epithelial cells

  1. Kerstin Lehmann1,
  2. Elzbieta Janda3,
  3. Christophe E. Pierreux2,
  4. Marjatta Rytömaa1,
  5. Almut Schulze1,
  6. Martin McMahon4,
  7. Caroline S. Hill2,
  8. Hartmut Beug3, and
  9. Julian Downward1,5
  1. 1Signal Transduction and 2Developmental Signaling Laboratories, Imperial Cancer Research Fund, London WC2A 3PX, UK; 3Institute of Molecular Pathology, A-1030 Vienna, Austria; 4Cancer Research Institute, UCSF/Mt. Zion Cancer Center, San Francisco, California 94115-0128, USA

Abstract

c-Raf-1 is a major effector of Ras proteins, responsible for activation of the ERK MAP kinase pathway and a critical regulator of both normal growth and oncogenic transformation. Using an inducible form of Raf in MDCK cells, we have shown that sustained activation of Raf alone is able to induce the transition from an epithelial to a mesenchymal phenotype. Raf promoted invasive growth in collagen gels, a characteristic of malignant cells; this was dependent on the operation of an autocrine loop involving TGFβ, whose secretion was induced by Raf. TGFβ induced growth inhibition and apoptosis in normal MDCK cells: Activation of Raf led to inhibition of the ability of TGFβ to induce apoptosis but not growth retardation. ERK has been reported previously to inhibit TGFβ signaling via phosphorylation of the linker region of Smads, which prevents their translocation to the nucleus. However, we found no evidence in this system that ERK can significantly influence the function of Smad2, Smad3, and Smad4 at the level of nuclear translocation, DNA binding, or transcriptional activation. Instead, strong activation of Raf caused a broad protection of these cells from various apoptotic stimuli, allowing them to respond to TGFβ with increased invasiveness while avoiding cell death. The Raf–MAP kinase pathway thus synergizes with TGFβ in promoting malignancy but does not directly impair TGFβ-induced Smad signaling.

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