par Conte, Daniele;Garaffo, Giulia;Lo Iacono, Nadia;Mantero, Stefano S;Piccolo, Stefano;Cordenonsi, Michelangelo;Perez-Morga, David 
;Orecchia, Valeria;Poli, Valeria;Merlo, Giorgio R
Référence Human molecular genetics
Publication Publié, 2015-12
;Orecchia, Valeria;Poli, Valeria;Merlo, Giorgio RRéférence Human molecular genetics
Publication Publié, 2015-12
Article révisé par les pairs
| Résumé : | The congenital malformation Split Hand/Foot (SHFM) is characterized by missing central fingers and dysmorphology or fusion of the remaining ones. Type-1 SHFM is linked to deletions/rearrangements of the DLX5-DLX6 locus and point mutations in the DLX5 gene. The ectrodactyly phenotype is reproduced in mice by the double knockout (DKO) of Dlx5 and Dlx6. During limb development, the Apical Ectodermal Ridge (AER) is a key signaling center responsible for early proximal-distal growth and patterning. In Dlx5;6 DKO hindlimbs, the central wedge of the AER loses multilayered organization and shows downregulation of FGF8 and Dlx2. In search for the mechanism, we examined the non-canonical Wnt signaling, considering that Dwnt-5 is a target of distalless in Drosophila and the knockout of Wnt5, Ryk, Ror2 and Vangl2 in the mouse causes severe limb malformations. We found that in Dlx5;6 DKO limbs, the AER expresses lower levels of Wnt5a, shows scattered catenin responsive cells and altered basolateral and Planar Cell Polarity (PCP). The addition of Wnt5a to cultured embryonic limbs restored the expression of AER markers and its stratification. Conversely, the inhibition of the PCP molecule JNK caused a loss of AER marker expression. In vitro, the addition of Wnt5a on mixed primary cultures of embryonic ectoderm and mesenchyme was able to confer re-polarization. We conclude that the Dlx-related ectrodactyly defect is associated with loss of basoapical and planar cell polarity, due to reduced Wnt5a expression and that the restoration of Wnt5a level is sufficient to partially reverts AER misorganization and dysmorphology. |
