Célio Pouponnot scite author profile

Upon ligand binding, the receptors of the TGF␤ family phosphorylate Smad proteins, which then move into the nucleus where they activate transcription. To carry out this function, the receptor-activated Smads 1 and 2 require association with the product of deleted in pancreatic carcinoma, locus 4 (DPC4), Smad4. We investigated the step at which Smad4 is required for transcriptional activation. Smad4 is not required for nuclear translocation of Smads 1 or 2, or for association of Smad2 with a DNA binding partner, the winged helix protein FAST-1. Receptor-activated Smad2 takes Smad4 into the nucleus where they form a complex with FAST-1 that requires these three components to activate transcription. Smad4 contributes two functions: Through its amino-terminal domain, Smad4 promotes binding of the Smad2/Smad4/FAST-1 complex to DNA; through its carboxy-terminal domain, Smad4 provides an activation function required for Smad1 or Smad2 to stimulate transcription. The dual function of Smad4 in transcriptional activation underscores its central role in TGF␤ signaling.

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TGFβ influences Myc, Miz-1 and Smad to control the CDK inhibitor p15INK4b

Seoane

et al. 2001

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Transforming growth factor-beta (TGFbeta) is a cytokine that arrests epithelial cell division by switching off the proto-oncogene c-myc and rapidly switching on cyclin-dependent kinase (CDK) inhibitors such as p15INK4b. Gene responses to TGFbeta involve Smad transcription factors that are directly activated by the TGFbeta receptor. Why downregulation of c-myc expression by TGFbeta is required for rapid activation of p15INK4b has remained unknown. Here we provide evidence that TGFbeta signalling prevents recruitment of Myc to the p15INK4b transcriptional initiator by Myc-interacting zinc-finger protein 1 (Miz-1). This relieves repression and enables transcriptional activation by a TGFbeta-induced Smad protein complex that recognizes an upstream p15INK4b promoter region and contacts Miz-1. Thus, two separate TGFbeta-dependent inputs - Smad-mediated transactivation and relief of repression by Myc - keep tight control over p15INK4b activation.

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Physical and Functional Interaction of SMADs and p300/CBP

Pouponnot

Jayaraman

Massagué

1998

Journal of Biological Chemistry

327

218

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SMADs are transforming growth factor ␤ (TGF-␤) receptor substrates and mediators of TGF-␤ transcriptional responses. Here we provide evidence that the coactivators p300 and CBP interact with Smads 1 through 4. The biological relevance of this interaction is shown in vivo by overexpression of the adenovirus E1A protein and mutant forms of E1A that lack p300-binding sites. Wild-type E1A, but not the mutants, inhibits SMAD-dependent transcriptional responses to TGF-␤. E1A also inhibits the intrinsic transactivating function of the Smad4 MH2 domain. In addition, overexpression of p300 enhances SMAD-dependent transactivation. Our results suggest a role for p300/CBP in SMAD-mediated transcriptional activation and provide an explanation for the observed ability of E1A to interfere with TGF-␤ action.

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