PLoS Genetics (Aug 2015)

The Evolutionarily Conserved LIM Homeodomain Protein LIM-4/LHX6 Specifies the Terminal Identity of a Cholinergic and Peptidergic C. elegans Sensory/Inter/Motor Neuron-Type.

  • Jinmahn Kim,
  • Jihye Yeon,
  • Seong-Kyoon Choi,
  • Yang Hoon Huh,
  • Zi Fang,
  • Seo Jin Park,
  • Myoung Ok Kim,
  • Zae Young Ryoo,
  • Kyeongjin Kang,
  • Hee-Seok Kweon,
  • Won Bae Jeon,
  • Chris Li,
  • Kyuhyung Kim

DOI
https://doi.org/10.1371/journal.pgen.1005480
Journal volume & issue
Vol. 11, no. 8
p. e1005480

Abstract

Read online

The expression of specific transcription factors determines the differentiated features of postmitotic neurons. However, the mechanism by which specific molecules determine neuronal cell fate and the extent to which the functions of transcription factors are conserved in evolution are not fully understood. In C. elegans, the cholinergic and peptidergic SMB sensory/inter/motor neurons innervate muscle quadrants in the head and control the amplitude of sinusoidal movement. Here we show that the LIM homeobox protein LIM-4 determines neuronal characteristics of the SMB neurons. In lim-4 mutant animals, expression of terminal differentiation genes, such as the cholinergic gene battery and the flp-12 neuropeptide gene, is completely abolished and thus the function of the SMB neurons is compromised. LIM-4 activity promotes SMB identity by directly regulating the expression of the SMB marker genes via a distinct cis-regulatory motif. Two human LIM-4 orthologs, LHX6 and LHX8, functionally substitute for LIM-4 in C. elegans. Furthermore, C. elegans LIM-4 or human LHX6 can induce cholinergic and peptidergic characteristics in the human neuronal cell lines. Our results indicate that the evolutionarily conserved LIM-4/LHX6 homeodomain proteins function in generation of precise neuronal subtypes.