Abstract
Vocalization is a behavioral feature that is shared among multiple vertebrate lineages, including fish. The temporal patterning of vocal communication signals is set, in part, by central pattern generators (CPGs). Toadfishes are well‐established models for CPG coding of vocalization at the hindbrain level. The vocal CPG comprises three topographically separate nuclei: pre‐pacemaker, pacemaker, motor. While the connectivity between these nuclei is well understood, their neurochemical profile remains largely unexplored. The highly vocal Gulf toadfish, Opsanus beta, has been the subject of previous behavioral, neuroanatomical and neurophysiological studies. Combining transneuronal neurobiotin‐labeling with immunohistochemistry, we map the distribution of inhibitory neurotransmitters and neuromodulators along with gap junctions in the vocal CPG of this species. Dense GABAergic and glycinergic label is found throughout the CPG, with labeled somata immediately adjacent to or within CPG nuclei, including a distinct subset of pacemaker neurons co‐labeled with neurobiotin and glycine. Neurobiotin‐labeled motor and pacemaker neurons are densely co‐labeled with the gap junction protein connexin 35/36, supporting the hypothesis that transneuronal neurobiotin‐labeling occurs, at least in part, via gap junction coupling. Serotonergic and catecholaminergic label is also robust within the entire vocal CPG, with additional cholinergic label in pacemaker and prepacemaker nuclei. Likely sources of these putative modulatory inputs are neurons within or immediately adjacent to vocal CPG neurons. Together with prior neurophysiological investigations, the results reveal potential mechanisms for generating multiple classes of social context‐dependent vocalizations with widely divergent temporal and spectral properties.
Highlights
| INTRODUCTIONVocal behavior frequently plays a central role in intra and interspecific diverse as birds and primates, hindbrain vocal circuits remain largely interactions among vertebrates
For three similar-sized fish (OB-15-05 (ID code): 5.3 cm; OB-15-06: 5.1 cm; OB-16-10: 6.1 cm), we evaluated several dimensions of the neurobiotin-labeled vocal central pattern generators (CPGs) nuclei (VMN, vocal pacemaker nucleus (VPN), vocal pre-pacemaker nucleus (VPP)): rostral-caudal extent of each nucleus, neuron number for each nucleus, individual neuron size reported as diameter, and individual neuron shape evaluated by the shape factor
Four groups of labeled neurons were recognized in the premotor VPN region: neurobiotin-only, gamma-aminobutyric acid (GABA)-only, glycine-only, and neurobiotin-glycine co-labeled
Summary
Vocal behavior frequently plays a central role in intra and interspecific diverse as birds and primates, hindbrain vocal circuits remain largely interactions among vertebrates. Among vocal species of fish, toadfishes (order Batrachoidiformes, family Batrachoididae) include species commonly known as toadfish and midshipman fish (Greenfield, Winterbottom, & Collette, 2008) that have provided tractable models for neurophysiological investigations of vocal CPGs (Ladich, Collin, Moller, & Kapoor, 2006) These fish produce several types of social context-dependent vocalizations (e.g., Figure 1a) by repetitively contracting a single pair of “superfast” vocal muscles attached to the walls of the swim bladder at frequencies of about 100– 250 Hz depending on the ambient water temperature (Bass & Baker, 1991; Brantley & Bass, 1994; Cohen & Winn, 1967; Rome, 2006; Skoglund, 1961). We report the robust distribution of inhibitory neurotransmitters and neuromodulators within the Gulf toadfish vocal CPG that likely contribute to the ability of these and other species of toadfish to produce social context-dependent vocal behaviors with divergent temporal and spectral properties (Rice & Bass, 2009)
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