Backgroundβ-catenin plays a central role in multiple developmental processes. However, it has been difficult to study its pleiotropic effects, because of the dual capacity of β-catenin to coordinate cadherin-dependent cell adhesion and to act as a component of Wnt signal transduction. To distinguish between the divergent functions of β-catenin during peripheral nervous system development, we made use of a mutant allele of β-catenin that can mediate adhesion but not Wnt-induced TCF transcriptional activation. This allele was combined with various conditional inactivation approaches.ResultsWe show that of all peripheral nervous system structures, only sensory dorsal root ganglia require β-catenin for proper formation and growth. Surprisingly, however, dorsal root ganglia development is independent of cadherin-mediated cell adhesion. Rather, both progenitor cell proliferation and fate specification are controlled by β-catenin signaling. These can be divided into temporally sequential processes, each of which depends on a different function of β-catenin.ConclusionsWhile early stage proliferation and specific Neurog2- and Krox20-dependent waves of neuronal subtype specification involve activation of TCF transcription, late stage progenitor proliferation and Neurog1-marked sensory neurogenesis are regulated by a function of β-catenin independent of TCF activation and adhesion. Thus, switching modes of β-catenin function are associated with consecutive cell fate specification and stage-specific progenitor proliferation.Electronic supplementary materialThe online version of this article (doi:10.1186/s12915-015-0134-4) contains supplementary material, which is available to authorized users.
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