Antennapedia‐Class homeobox genes define diverse neuronal sets in the embryonic CNS of the leech

Abstract

Studies of the Antennapedia‐class homeobox genes suggest that specific combinations of these transcription factors play a role in defining neuronal identities. We examined the expression of these genes in the leech Hirudo medicinalis, an organism well‐suited for neurobiological research at the level of identified neurons. Leeches contain at least as many Antennapedia‐class and related genes as insects do, despite the apparently lower complexity of the leech body plan. The CNS expression patterns of two Antennapedia‐class leech homeobox genes (Lox genes) were examined in detail. Lox1 is expressed during early gangliogenesis in only one pair of transient neurons present in every segment (the Bipolar cells) and, at later stages of embryonic development, in 15–20 pairs of central neurons repeated in most segments. The monoclonal antibody Laz1‐1 identified two pairs of Lox1‐expressing neurons as the Bipolar cells and the L1 neurons. The Bipolar cells extended processes in the primordia of the longitudinal connective nerves and later degenerated. The L1 neurons were detected late in gangliogenesis and became stable neurons. Lox2 is expressed in an iterated set of neurons in the posterior two‐thirds of the CNS. On the basis of cell body position and relative size, two pairs of Lox2‐expressing cells were identified as the RPE‐like neurons and the CV motor neurons. Other Lox genes are also expressed in segmentally repeated subpopulations of neurons. These neuronal subpopulations appear to be different from one another but partially overlapping. Different combinations of Lox genes that may be expressed in individual cells could in theory generate enough variability to specify all central neurons in a leech ganglion. © 1993 John Wiley & Sons, Inc.