Attention and Motivated Response to Simulated Male Advertisement Call Activates Forebrain Dopaminergic and Social Decision-Making Network Nuclei in Female Midshipman Fish.

Little is known regarding the coordination of audition with decision-making and subsequent motor responses that initiate social behavior including mate localization during courtship. Using the midshipman fish model, we tested the hypothesis that the time spent by females attending and responding to the advertisement call is correlated with the activation of a specific subset of catecholaminergic (CA) and social decision-making network (SDM) nuclei underlying auditory- driven sexual motivation. In addition, we quantified the relationship of neural activation between CA and SDM nuclei in all responders with the goal of providing a map of functional connectivity of the circuitry underlying a motivated state responsive to acoustic cues during mate localization. In order to make a baseline qualitative comparison of this functional brain map to unmotivated females, we made a similar correlative comparison of brain activation in females who were unresponsive to the advertisement call playback. Our results support an important role for dopaminergic neurons in the periventricular posterior tuberculum and ventral thalamus, putative A11 and A13 tetrapod homologues, respectively, as well as the posterior parvocellular preoptic area and dorsomedial telencephalon, (laterobasal amygdala homologue) in auditory attention and appetitive sexual behavior in fishes. These findings may also offer insights into the function of these highly conserved nuclei in the context of auditory-driven reproductive social behavior across vertebrates.

Effects of p-Aminosalicylic acid on the neurotoxicity of manganese on the dopaminergic innervation of the cilia of the lateral cells of the gill of the bivalve mollusc, Crassostrea virginica.

The lateral cilia of the gill of Crassostrea virginica are controlled by a dopaminergic-serotonergic innervation. Dopamine is the neurotransmitter causing cilio-inhibition. High levels of manganese are neurotoxic to people, causing Manganism, a Parkinson-like disease. Clinical interventions for Manganism have not been very successful. Recently, p-Aminosalicylic acid (PAS) was reported as an effective treatment of severe Manganism in humans; however, its mechanism of action is unknown. Previously, we reported that manganese treatments caused disruption of the dopaminergic innervation of gill of C. virginica. Here we compared the effects of manganese on gill innervation in the presence of PAS, EDTA or Acetylsalicylic acid (ASA), and examined whether co-treating animals with PAS could block the deleterious effects of manganese on the oyster's dopaminergic innervation of the gill. Beating rates of the lateral cilia of the gill were measured by stroboscopic microscopy. Pre-treating gill preparations with PAS or EDTA blocked the neurotoxic effects of manganese, while ASA did not. In other experiments, animals exposed to three day treatments with manganese produced a dose dependent impairment of the dopaminergic, cilio-inhibitory system, which was decreased by co-treatment with PAS. The study shows that PAS protects the animal against neurotoxic effects of manganese and the mechanism of action of PAS in alleviating Manganism is more likely related to its chelating abilities than its anti-inflammatory actions.