An understanding of the molecular mechanisms of cell fate determination in the nervous system requires the elucidation of transcriptional regulatory programs that ultimately control neuron-type-specific gene expression profiles. We show here that the C. elegans Tailless/TLX-type, orphan nuclear receptor NHR-67 acts at several distinct steps to determine the identity and subsequent left/right (L/R) asymmetric subtype diversification of a class of gustatory neurons, the ASE neurons. nhr-67 controls several broad aspects of sensory neuron development and, in addition, triggers the expression of a sensory neuron-type-specific selector gene, che-1, which encodes a zinc-finger transcription factor. Subsequent to its induction of overall ASE fate, nhr-67 diversifies the fate of the two ASE neurons ASEL and ASER across the L/R axis by promoting ASER and inhibiting ASEL fate. This function is achieved through direct expression activation by nhr-67 of the Nkx6-type homeobox gene cog-1,an inducer of ASER fate, that is inhibited in ASEL through the miRNA lsy-6. Besides controlling bilateral and asymmetric aspects of ASE development, nhr-67 is also required for many other neurons of diverse lineage history and function to appropriately differentiate,illustrating the broad and diverse use of this type of transcription factor in neuronal development.
We thank M. O'Meara for providing otIs158 and ot190, E. Flowers for ot247, V. Marrero for yeast manipulation assistance, M. Walhout for the yeast one-hybrid strain, Q. Chen for expert DNA injection and members of the Hobert lab for comments on the manuscript. We acknowledge funding by the NIH to O.H.(R01NS039996-05, R01NS050266-03)and to S.S. (NS054540-01). B.T. is funded by the Francis Goelet Fellowship. O.H. is an Investigator of the HHMI. Deposited in PMC for release after 6 months.
