A transcriptional regulatory cascade that controls left/right asymmetry in chemosensory neurons ofC. elegans
- 1 September 2003
- journal article
- Published by Cold Spring Harbor Laboratory in Genes & Development
- Vol. 17 (17) , 2123-2137
- https://doi.org/10.1101/gad.1117903
Abstract
The molecular mechanisms of differential pattern formation along the left/right (L/R) axis in the nervous system are poorly understood. The nervous system of the nematodeCaenorhabditis elegansdisplays several examples of L/R asymmetry, including the directional asymmetry displayed by the two ASE taste receptor neurons, ASE left (ASEL) and ASE right (ASER). Although bilaterally symmetric in regard to all known morphological criteria, these two neurons display distinct chemosensory capacities that correlate with the L/R asymmetric expression of three putative sensory receptor genes,gcy-5, expressed only in ASER, andgcy-6andgcy-7, expressed only in ASEL. In order to understand the genetic basis of L/R asymmetry establishment, we screened for mutants in which patterns of asymmetricgcygene expression are disrupted, and we identified a cascade of several symmetrically and asymmetrically expressed transcription factors that are sequentially required to restrictgcygene expression to either the left or right ASE cell. These factors include the zinc finger transcription factorche-1; the homeobox genescog-1,ceh-36, andlim-6; and the transcriptional cofactorsunc-37/Grouchoandlin-49. Specific features of this regulatory hierarchy are sequentially acting repressive interactions and the finely balanced activity of antagonizing positive and negative regulatory factors. A key trigger for asymmetry is the L/R differential expression of the Nkx6-type COG-1 homeodomain protein. Our studies have thus identified transcriptional mediators of a putative L/R-asymmetric signaling event and suggest that vertebrate homologs of these proteins may have similar functions in regulating vertebrate brain asymmetries.Keywords
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