Abstract
Crayfish are capable of two rapid, escape reflexes that are mediated by two pairs of giant interneurons, the lateral giants (LG) and the medial giants (MG), which respond to threats presented to the abdomen or head and thorax, respectively. The LG has been the focus of study for many decades and the role of GABAergic inhibition on the escape circuit is well-described. More recently, we demonstrated that the LG circuit is sensitive to the acute effects of ethanol and this sensitivity is likely mediated by interactions between ethanol and the GABAergic system. The MG neurons, however, which receive multi-modal sensory inputs and are located in the brain, have been less studied despite their established importance during many naturally occurring behaviors. Using a combination of electrophysiological and neuropharmacological techniques, we report here that the MG neurons are sensitive to ethanol and experience an increase in amplitudes of post-synaptic potentials following ethanol exposure. Moreover, they are affected by GABAergic mechanisms: the facilitatory effect of acute EtOH can be suppressed by pretreatment with a GABA receptor agonist whereas the inhibitory effects resulting from a GABA agonist can be occluded by ethanol exposure. Together, our findings suggest intriguing neurocellular interactions between alcohol and the crayfish GABAergic system. These results enable further exploration of potentially conserved neurochemical mechanisms underlying the interactions between alcohol and neural circuitry that controls complex behaviors.
Highlights
Alcohol is one of the most abused drugs worldwide with devastating impacts on health and economy
We found that antenna II nerve stimulation reliably produces medial giants (MG) Post-synaptic potentials (PSPs), but it generally fails to evoke an action potential in MG
The MG spike rises from the early part of the PSP (3.5 ms after the stimulus artifact) suggesting that this part of the PSP consists of mostly excitatory synaptic inputs following antenna II stimulation
Summary
Alcohol is one of the most abused drugs worldwide with devastating impacts on health and economy. The symptoms of ethanol (EtOH) intoxication are highly conserved. This includes research performed in nematodes (Topper et al, 2014), fruit flies (Lee et al, 2008), and crayfish (Friedman et al, 1988; Macmillan et al, 1991; Blundon and Bittner, 1992; Swierzbinski et al, 2017). Crayfish have been used to study the effects of EtOH on behavior and synaptic transmission at the neuromuscular junction. This study reported a dose-dependent effect, with lower concentrations of EtOH increasing, and higher concentrations reducing, transmitter release and synaptic potentials at the neuromuscular junction. Huber et al (2011) demonstrated that crayfish display conditioned place preference following injections of cocaine and amphetamines, and morphine injections into the crayfish brain have been shown to facilitate locomotion and exploratory behaviors (ImehNathaniel et al, 2014)
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