Analysis of Msx1; Msx2 double mutants reveals multiple roles for Msx genes in limb development

doi:10.1242/dev.01877

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Development ePress online publication date 1 Jun 2005
doi: 10.1242/dev.01877

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Research article

Analysis of Msx1; Msx2 double mutants reveals multiple roles for Msx genes in limb development

Yvan Lallemand, Marie-Anne Nicola, Casto Ramos, Antoine Bach, Cécile Saint Cloment, and Benoît Robert^*
^* Author for correspondence (e-mail: brobert{at}pasteur.fr)

The homeobox-containing genes Msx1 and Msx2 are highly expressedin the limb field from the earliest stages of limb formationand, subsequently, in both the apical ectodermal ridge and underlyingmesenchyme. However, mice homozygous for a null mutation ineither Msx1 or Msx2 do not display abnormalities in limb development.By contrast, Msx1; Msx2 double mutants exhibit a severe limbphenotype. Our analysis indicates that these genes play a rolein crucial processes during limb morphogenesis along all threeaxes. Double mutant limbs are shorter and lack anterior skeletalelements (radius/tibia, thumb/hallux). Gene expression analysisconfirms that there is no formation of regions with anterioridentity. This correlates with the absence of dorsoventral boundaryspecification in the anterior ectoderm, which precludes apicalectodermal ridge formation anteriorly. As a result, anteriormesenchyme is not maintained, leading to oligodactyly. Paradoxically,polydactyly is also frequent and appears to be associated withextended Fgf activity in the apical ectodermal ridge, whichis maintained up to 14.5 dpc. This results in a major outgrowthof the mesenchyme anteriorly, which nevertheless maintains aposterior identity, and leads to formation of extra digits.These defects are interpreted in the context of an impairmentof Bmp signalling.

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