Engrailed protein is expressed in interneurons but not motor neurons of the dorsal unpaired median group in the adult grasshopper.

We report that the homeodomain protein Engrailed (En) is differentially expressed by neuronal type. Expression was examined within identified midline neurons in T3, A1, and A2 neuromeres of the adult grasshopper by using immunohistochemistry. All save a few neurons in the adult dorsal unpaired median (DUM) group arise embryonically from a single precursor, the median neuroblast. DUM neurons are efferent neurons, local interneurons, or intersegmental interneurons, recognizable as such by their distinct morphologies and neurotransmitter phenotypes. We show that interneurons are En-positive, whereas efferents are En-negative. In the T3 DUM group, the 70 or so interneurons contained cytoplasmic immunoreactivity for gamma-aminobutyric acid (GABA) and glutamate decarboxylase. In double-labeling experiments, all GABA-immunoreactive neurons were also En-positive, and all En-positive neurons contained GABA immunoreactivity. In complementary experiments, the 20 or so efferents in the T3 DUM group, which are octopaminergic, were selectively labeled with a histological marker and then processed to reveal En immunoreactivity. No efferents in the group were En-positive. The abdominal DUM groups contain fewer neurons, but the same dichotomy of labeling was found. The En pattern is established during embryogenesis, with the type-specific pattern apparent by stage 90% of development, the earliest stage examined here. The differential expression of En in the embryo and its continued expression in the adult nervous system suggest a role in the development and maintenance of neuronal phenotype. Morphological differences between efferents and interneurons are discussed in light of a hypothesis that En mediates differential expression of cell adhesion or cell-affinity molecules.