Yann Fédon scite author profile

Expression of Wnt proteins is known to be important for developmental processes such as embryonic pattern formation and determination of cell fate. Previous studies have shown that Wn4 was involved in the myogenic fate of somites, in the myogenic proliferation, and differentiation of skeletal muscle. However, the function of this factor in adult muscle homeostasis remains not well understood. Here, we focus on the roles of Wnt4 during C2C12 myoblasts and satellite cells differentiation. We analyzed its myogenic activity, its mechanism of action, and its interaction with the anti-myogenic factor myostatin during differentiation. Established expression profiles indicate clearly that both types of cells express a few Wnts, and among these, only Wnt4 was not or barely detected during proliferation and was strongly induced during differentiation. As attested by myogenic factors expression pattern analysis and fusion index determination, overexpression of Wnt4 protein caused a strong increase in satellite cells and C2C12 myoblast differentiation leading to hypertrophic myotubes. By contrast, exposure of satellite and C2C12 cells to small interfering RNA against Wnt4 strongly diminished this process, confirming the myogenic activity of Wnt4. Moreover, we reported that Wnt4, which is usually described as a noncanonical Wnt, activates the canonical ␤-catenin pathway during myogenic differentiation in both cell types and that this factor regulates negatively the expression of myostatin and the regulating pathways associated with myostatin. Interestingly, we found that recombinant myostatin was sufficient to antagonize the differentiation-promoting activities of Wnt4. Reciprocally, we also found that the genetic deletion of myostatin renders the satellite cells refractory to the hypertrophic effect of Wnt4. These results suggest that the Wnt4-induced decrease of myostatin plays a functional role during hypertrophy. We propose that Wnt4 protein may be a key factor that regulates the extent of differentiation in satellite and C2C12 cells. satellite cells; C2C12 myoblasts; muscle hypertrophy; muscle differentiation

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Multipleacegenes encoding acetylcholinesterases ofCaenorhabditis eleganshave distinct tissue expression

Combes

Fédon

Toutant

et al. 2003

Eur J of Neuroscience

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ace-1 and ace-2 genes encoding acetylcholinesterase in the nematode Caenorhabditis elegans present 35% identity in coding sequences but no homology in noncoding regions (introns, 5'- and 3'-untranslated regions). A 5'-region of ace-2 was defined by rescue of ace-1;ace-2 mutants. When green fluorescent protein (GFP) expression was driven by this regulatory region, the resulting pattern was distinct from that of ace-1. This latter gene is expressed in all body-wall and vulval muscle cells (Culetto et al., 1999), whereas ace-2 is expressed almost exclusively in neurons. ace-3 and ace-4 genes are located in close proximity on chromosome II (Combes et al., 2000). These two genes were first transcribed in vivo as a bicistronic messenger and thus constitute an ace-3;ace-4 operon. However, there was a very low level of monocistronic mRNA of ace-4 (the upstream gene) in vivo, and no ACE-4 enzymatic activity was ever detected. GFP expression driven by a 5' upstream region of the ace-3;ace-4 operon was detected in several muscle cells of the pharynx (pm3, pm4, pm5 and pm7) and in the two canal associated neurons (CAN cells). A dorsal row of body-wall muscle cells was intensively labelled in larval stages but no longer detected in adults. The distinct tissue-specific expression of ace-1, ace-2 and ace-3 (coexpressed only in pm5 cells) indicates that ace genes are not redundant.

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Enhancement of peptide immunogenicity by linear polymerization

1988

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The effect of linear homopolymerization on the immunogenicity of synthetic peptides was studied using either haptenic peptides (representing amino acid sequences 103-115 and 133-147 of bovine rotavirus major protein) or immunogenic peptides TD-103-115 and TD-133-147 which were constructed by co-linear synthesis of the former peptides and an amino acid sequence representing a determinant recognized by T helper cells (TD). It was found that the two haptenic peptides were rendered immunogenic by linear homopolymerization. Moreover, homopolymerization also enhanced the immunogenicity of TD-103-115 but not that of TD-133-147. In the three cases where polymerization enhanced immunogenicity, a reinforced amphipathic pattern was predicted in the neighborhood of the junction of the monomers. The possibility that polymerization might have generated a new T cell determinant is discussed.

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Biochemical-Characterization of Drosophila melanogaster Acetylcholinesterase Expressed by Recombinant Baculoviruses

Chaabihi¹,

Fournier²,

Fédon³

et al. 1994

Biochemical and Biophysical Research Communications

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Yann Fédon

Four Genes Encode Acetylcholinesterases in the Nematodes Caenorhabditis elegans and Caenorhabditis briggsae. cDNA Sequences, Genomic Structures, Mutations and in vivo Expression

Wnt4 activates the canonical β-catenin pathway and regulates negatively myostatin: functional implication in myogenesis

Multipleacegenes encoding acetylcholinesterases ofCaenorhabditis eleganshave distinct tissue expression

Enhancement of peptide immunogenicity by linear polymerization

Biochemical-Characterization of Drosophila melanogaster Acetylcholinesterase Expressed by Recombinant Baculoviruses

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