The neurophysiology of larval firefly luminescence: Direct activation through four bifurcating (DUM) neurons

Summary The paired lanterns of the larval fireflyPhoturis versicolor are bilaterally innervated by four dorsal unpaired median (DUM) neurons the somata of which are found in the terminal abdominal ganglion (A8) and which stain with Neutral Red (Fig. 1A). Both intra- and extracellularly recorded activity in these neurons is always associated with a bilateral glow response, or BGR (Figs. 3 and 4). Luminescence cannot be initiated or maintained in the absence of DUM neuron excitation. Furthermore, there is a linear causative relationship between the frequency of DUM neuron activity and the amplitude of the resultant BGR (Figs. 6 and 7).Due to the intrinsic bilateral morphology, firefly DUM neurons may be antidromically activated through either lantern nerve, resulting in the initiation of luminescence in the contralateral lantern (Figs. 8 and 9). This activation is unaffected by high Mg⁺⁺ saline indicating that the DUM neurons provide a direct pathway for conduction through the ganglion (Fig. 9). The DUM neurons receive synaptic input from axons descending through both anterior connectives, however, stimulation of only one connective results in a BGR since excitation is carried to both sides of the periphery through the bilateral axons.Firefly DUM neurons exhibit physiological qualities typical of neurosecretory cells: spikes are characterized by a slow time course and a long and deep afterhyperpolarization (Fig. 10). This is consistent with the observation that spontaneous firing rates are usually below 3 Hz, but nevertheless elicit a strong BGR (Figs. 3 and 5). The physiological evidence presented in this study correlates well with the morphological, pharmacological and biochemical evidence compiled from previous studies, which indicates that the four DUM neurons represent the sole photomotor output from the central nervous system to the larval lanterns. Evidence is discussed which indicates that these effects are mediated throught the release of octopamine, long presumed to be the lantern neurotransmitter. These results, therefore, describe a novel and unexpected role for DUM neurons in regulating an unusual invertebrate effector tissue and further expands the growing list of functions for octopamine in neural control mechanisms.Abbreviations A1-A7 first through seventh abdominal ganglia - A8 terminal abdominal ganglion - DUM dorsal unpaired median - BGR bilateral glow response