Serhiy Souchelnytskyi scite author profile

Smad family members are newly identified essential intracellular signalling components of the transforming growth factor‐β (TGF‐β) superfamily. Smad2 and Smad3 are structurally highly similar and mediate TGF‐β signals. Smad4 is distantly related to Smads 2 and 3, and forms a heteromeric complex with Smad2 after TGF‐β or activin stimulation. Here we show that Smad2 and Smad3 interacted with the kinase‐deficient TGF‐β type I receptor (TβR)‐I after it was phosphorylated by TβR‐II kinase. TGF‐β1 induced phosphorylation of Smad2 and Smad3 in Mv1Lu mink lung epithelial cells. Smad4 was found to be constitutively phosphorylated in Mv1Lu cells, the phosphorylation level remaining unchanged upon TGF‐β1 stimulation. Similar results were obtained using HSC4 cells, which are also growth‐inhibited by TGF‐β. Smads 2 and 3 interacted with Smad4 after TβR activation in transfected COS cells. In addition, we observed TβR‐activation‐dependent interaction between Smad2 and Smad3. Smads 2, 3 and 4 accumulated in the nucleus upon TGF‐β1 treatment in Mv1Lu cells, and showed a synergistic effect in a transcriptional reporter assay using the TGF‐β‐inducible plasminogen activator inhibitor‐1 promoter. Dominant‐negative Smad3 inhibited the transcriptional synergistic response by Smad2 and Smad4. These data suggest that TGF‐β induces heteromeric complexes of Smads 2, 3 and 4, and their concomitant translocation to the nucleus, which is required for efficient TGF‐β signal transduction.

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The L45 loop in type I receptors for TGF‐β family members is a critical determinant in specifying Smad isoform activation

Persson

et al. 1998

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Transforming growth factor-L L (TGF-L L) and bone morphogenetic proteins (BMPs) signal via distinct type I and type II receptors and Smad proteins. A nine amino acid sequence between kinase subdomains IV and V in type I receptors, termed the L45 loop, has been shown to be important in conferring signalling specificity. We examined the responses of a mutant TGF-L L type I receptor (TL LR-I) and a mutant BMPR-IB, in which the L45 regions of these two receptors were exchanged. Swapping the four amino acid residues that are different in BMPR-IB for those in TL LR-I, and vice versa, switched their type I receptor-restricted Smad activation and specificity in transcriptional responses. These studies identify the L45 loop regions in type I receptors as critical determinants in specifying Smad isoform activation.z 1998 Federation of European Biochemical Societies.

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Phosphorylation of Ser465 and Ser467 in the C Terminus of Smad2 Mediates Interaction with Smad4 and Is Required for Transforming Growth Factor-β Signaling

Souchelnytskyi

Tamaki²,

Engström

et al. 1997

Journal of Biological Chemistry

371

273

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Members of the Smad family of intracellular signal transducers are essential for transforming growth factor-␤ (TGF-␤) to exert its multifunctional effects. After activation of TGF-␤ receptors, Smad2 and Smad3 become phosphorylated and form heteromeric complexes with Smad4. Thereafter, these activated Smad complexes translocate to the nucleus, where they may direct transcriptional responses. Here we report that TGF-␤ mediates phosphorylation of Smad2 at two serine residues in the C terminus, i.e. Ser 465 and Ser 467 , which are phosphorylated in an obligate order; phosphorylation of Ser 465 requires that Ser 467 be phosphorylated. Transfection of Smad2 with mutation of Ser 465 and/or Ser 467 to alanine residues into Mv1Lu cells resulted in dominantnegative inhibition of TGF-␤ signaling. These Smad2 mutants were found to stably interact with an activated TGF-␤ receptor complex, in contrast to wild-type Smad2, which interacts only transiently. Mutation of Ser 465 and Ser 467 in Smad2 abrogated complex formation of this mutant with Smad4 and blocked the nuclear accumulation not only of Smad2, but also of Smad4. Thus, heteromeric complex formation of Smad2 with Smad4 is required for nuclear translocation of Smad4. Moreover, peptides from the C terminus of Smad2 containing phosphorylated Ser 465 and Ser 467 were found to bind Smad4 in vitro, whereas the corresponding unphosphorylated peptides were less effective. Thus, phosphorylated Ser 465 and Ser 467 in Smad2 may provide a recognition site for interaction with Smad4, and phosphorylation of these sites is a key event in Smad2 activation.

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Src kinase phosphorylates vascular endothelial-cadherin in response to vascular endothelial growth factor: identification of tyrosine 685 as the unique target site

et al. 2006

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Regulation of Smad signaling by protein kinase C

et al. 2001

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Cross talk between transforming growth factor b(TGF-b) serine/threonine kinase receptor signaling and tyrosine kinase receptor signaling modulates cell responsiveness to polypeptide growth factors regulating cell proliferation, differentiation, and apoptosis. Here we provide a mechanism through which Smad-dependent TGF-b signaling is modulated by protein kinase C (PKC). PKC, for example, is activated downstream of tyrosine kinase receptors. We show that PKC directly phosphorylates receptor-regulated Smad proteins. This phosphorylation abrogates the ability of Smad3 to bind directly to DNA, which leads to subsequent inability to mediate transcriptional responses dependent on the direct binding of Smad3 to DNA. Interference with PKC regulation of Smad functions increased cell sensitivity to transformation by the tumor promoter phorbol 12-myristate 13-acetate (PMA). PKC-dependent phosphorylation of Smad3 was found also to be a key event in the PMA-dependent inactivation of TGF-b-stimulated cell death. Thus, PKC-dependent phosphorylation of Smad3 leads to down-regulation of the growth inhibitory and apoptotic action of TGF-b.

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