Hedgehog signalling in the mouse requires intraflagellar transport proteins

Intraflagellar transport (IFT) proteins were first identified as essential factors for the growth and maintenance of flagella in the single-celled alga Chlamydomonas reinhardtii 1 . In a screen for embryonic patterning mutations induced by ethylnitrosourea, here we identify two mouse mutants, wimple ( wim ) and flexo ( fxo ), that lack ventral neural cell types and show other phenotypes characteristic of defects in Sonic hedgehog signalling. Both mutations disrupt IFT proteins: the wim mutation is an allele of the previously uncharacterized mouse homologue of IFT172 ; and fxo is a new hypomorphic allele of polaris , the mouse homologue of IFT88 . Genetic analysis shows that Wim, Polaris and the IFT motor protein Kif3a are required for Hedgehog signalling at a step downstream of Patched1 (the Hedgehog receptor) and upstream of direct targets of Hedgehog signalling. Our data show that IFT machinery has an essential and vertebrate-specific role in Hedgehog signal transduction.