Jennifer Kennell scite author profile

Wnt signaling has been reported to block apoptosis and regulate differentiation of mesenchymal progenitors through inhibition of glycogen synthase kinase 3 and stabilization of ␤-catenin. The effects of Wnt in preadipocytes may be mediated through Frizzled (Fz) 1 and/or Fz2 as these Wnt receptors are expressed in preadipocytes and their expression declines upon induction of differentiation. We ectopically expressed constitutively active chimeras between Wnt8 and Fz1 or Fz2 in preadipocytes and mesenchymal precursor cells. Our results indicated that activated Fz1 increases stability of ␤-catenin, inhibits apoptosis, induces osteoblastogenesis, and inhibits adipogenesis. Although activated Fz2 does not influence apoptosis or osteoblastogenesis, it inhibits adipogenesis through a mechanism independent of ␤-catenin. An important mediator of the ␤-catenin-independent pathway appears to be calcineurin because inhibitors of this serine/threonine phosphatase partially rescue the block to adipogenesis caused by Wnt3a or activated Fz2. These data supported a model in which Wnt signaling inhibits adipogenesis through both ␤-catenin-dependent and ␤-catenin-independent mechanisms.

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The microRNA miR-8 is a conserved negative regulator of Wnt signaling

Kennell

Gerin

MacDougald

et al. 2008

Proc. Natl. Acad. Sci. U.S.A.

178

151

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Wnt signaling plays many important roles in animal development. This evolutionarily conserved signaling pathway is highly regulated at all levels. To identify regulators of the Wnt/Wingless (Wg) pathway, we performed a genetic screen in Drosophila. We identified the microRNA miR-8 as an inhibitor of Wg signaling. Expression of miR-8 potently antagonizes Wg signaling in vivo, in part by directly targeting wntless, a gene required for Wg secretion. In addition, miR-8 inhibits the pathway downstream of the Wg signal by repressing TCF protein levels. Another positive regulator of the pathway, CG32767, is also targeted by miR-8. Our data suggest that miR-8 potently antagonizes the Wg pathway at multiple levels, from secretion of the ligand to transcription of target genes. In addition, mammalian homologues of miR-8 promote adipogenesis of marrow stromal cells by inhibiting Wnt signaling. These findings indicate that miR-8 family members play an evolutionarily conserved role in regulating the Wnt signaling pathway.adipogenesis ͉ TCF ͉ Wntless

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Wnt Signaling Protects 3T3-L1 Preadipocytes from Apoptosis through Induction of Insulin-like Growth Factors

Longo¹,

Kennell²,

Ochocinska

et al. 2002

Journal of Biological Chemistry

193

127

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Ectopic expression of Wnt-1 in 3T3-L1 preadipocytes stabilizes ␤-catenin, activates TCF-dependent gene transcription, and blocks adipogenesis. Here we report that upon serum withdrawal, Wnt-1 causes 3T3-L1 cells to resist apoptosis through a mechanism that is partially dependent on phosphatidylinositol 3-kinase. Although activation of Wnt signaling by inhibition of GSK-3 activity or ectopic expression of dominant stable ␤-catenin blocks apoptosis, inhibition of Wnt signaling through expression of dominant negative TCF-4 increases apoptosis. Wnt-1 stimulates 3T3-L1 preadipocytes to secrete factors that increase PKB/Akt phosphorylation at levels comparable with treatment with 10% serum. With DNA microarrays, we identified several secreted antiapoptotic genes that are induced by Wnt-1, notably insulinlike growth factor I (IGF-I) and IGF-II. Consistent with IGFs mediating the antiapoptotic effects of Wnt-1 in preadipocytes, conditioned medium from Wnt-1 expressing 3T3-L1 cells was unable to promote protein kinase B phosphorylation after the addition of recombinant IG-FBP-4. Thus, we demonstrated that Wnt-1 induces expression of antiapoptotic genes in 3T3-L1 preadipocytes such as IGF-I and IGF-II, which allows these cells to resist apoptosis in response to serum deprivation.

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Dendritic Cell-specific MHC Class II Transactivator Contains a Caspase Recruitment Domain That Confers Potent Transactivation Activity

Nickerson¹,

Sisk²,

Inohara

et al. 2001

Journal of Biological Chemistry

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T-Cell Factor 4N (TCF-4N), a Novel Isoform of Mouse TCF-4, Synergizes with β-Catenin To Coactivate C/EBPα and Steroidogenic Factor 1 Transcription Factors

Kennell¹,

O’Leary²,

Gummow³

et al. 2003

Molecular and Cellular Biology

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