A cell's identity, its interactions with other cells, and its ablity to adapt to its environment are heavily dependent on the proteins associated with its plasma membrane. Ankyrin, an intracellular protein that couples several integral membrane proteins to the spectrin cytoskeleton, is believed to be instrumental in organizing many membrane proteins into specialized domains. Recently, a family of cell adhesion molecules belonging to the Ig/FnIII superfamily was shown to bind ankyrin; these proteins include neurofascin, L1, NrCam and NgCam in vertebrates and neuroglian in Drosophila (1-6). This family of ankyrin binding CAMs is believed to be involved in neurite outgrowth, axonal fasciculation and targeting, cell migration and synaptogenesis during embryonic and postnatal vertebrate development (1-4). A member of the family has been identified in C. elegans. The gene encoding the homologue has been designated
nef-1. In addition to the Ig and FnIII domains, it contains a highly conserved ankyrin binding domain. We are interested in elucidating the role of
nef-1 in C. elegans development and its interactions with the C. elegans ankyrin homologue, UNC-44. Interestingly, mutations in
unc-44 causes defects in axon guidance (7). 1. Sonderegger and Rathgen, 1992. J.Cell Biol. 119:1387-1394. 2. Rathgen and Jessel, 1991. Sem. of Neurosci. 3:297-307. 3. Grumet, 1991. Curr. Opin. Neurobiol. 1:370-379. 4. Hortsch and Goodman, 1991. Ann. Rev. Cell Biol. 7:505-557. 5. Davis et al., 1993. J. Biol. Chem.232:121-133 6. Davis and Bennett, 1994. J. Biol. Chem.267:18955-18972. 7. Otsuka et al., 1995. J.Cell Biol. 129: 1089-1092.